EUROCONTROL
2019Level 1 - Implementation Overview
LSSIP 2019 - UNITED KINGDOMLOCAL SINGLE SKY IMPLEMENTATION
LSSIP Year 2019 United Kingdom- Level 1 Released Issue
Document Title LSSIP Year 2019 for United Kingdom
Info Centre Reference 20/01/15/44
Date of Edition 29/04/2020
LSSIP Focal Point Craig King – [email protected]
LSSIP Contact Person Alessandro Prestigiacomo - [email protected] EUROCONTROL/NMD/INF/PAS
LSSIP Support Team [email protected]
Status Released
Intended for Agency Stakeholders
Available in https://www.eurocontrol.int/service/local-single-sky-implementation-monitoring
Reference Documents
LSSIP Documents https://www.eurocontrol.int/service/local-single-sky-implementation-monitoring
Master Plan Level 3 – Plan Edition 2019
https://www.eurocontrol.int/publication/european-atm-master-plan-implementation-plan-level-3-2019
Master Plan Level 3 – Report Year 2019
https://www.eurocontrol.int/publication/european-atm-master-plan-implementation-report-level-3-2019
European ATM Portal https://www.atmmasterplan.eu/
STATFOR Forecasts https://www.eurocontrol.int/statfor
National AIP http://www.nats-uk.ead-it.com/
LSSIP Year 2019 United Kingdom- Level 1 Released Issue
APPROVAL SHEET
The following authorities have approved all parts of the LSSIP Year 2019 document and the signatures confirm the correctness of the reported information and reflect the commitment to implement the actions laid down in the European ATM Master Plan Level 3 (Implementation View) – Edition 2019.
Stakeholder / Organisation
Name Position Signature and date
UK Civil Aviation Authority
Jon ROUND Head of Airspace, Air Traffic Management and Aerodromes (AAA) (Safety and Airspace Regulation Group (SARG) )
LSSIP Year 2019 United Kingdom- Level 1 Released Issue
TABLE OF CONTENTS
Executive Summary ............................................................................................ 1
Introduction ..................................................................................................... 11
1. National ATM Environment .......................................................... 12 Geographical Scope .......................................................................................... 12 National Stakeholders ...................................................................................... 14
2. Traffic and Capacity ...................................................................... 27 Evolution of traffic in United Kingdom ............................................................. 27 LONDON EN-ROUTE ACC .................................................................................. 28 LONDON TERMINAL CONTROL (TC).................................................................. 31 PRESTWICK ACC ................................................................................................ 34
3. Implementation Projects .............................................................. 37 National projects .............................................................................................. 37 Additional national projects ............................................................................. 43 FAB projects ...................................................................................................... 46 Multinational projects ...................................................................................... 47
4. Cooperation activities ................................................................... 55 FAB Co-ordination............................................................................................. 55 Multinational cooperation initiatives ............................................................... 55
5. Implementation Objectives Progress ............................................ 57 State View: Overall Objective Implementation Progress ................................. 57 Objective Progress per SESAR Key Feature ...................................................... 59 ICAO ASBU Implementation Progress .............................................................. 64 Detailed Objectives Implementation progress ................................................. 65
6. Annexes ...................................................................................... 133 A. Specialists involved in the ATM implementation reporting for the UK ......... 133 B. National stakeholders organisation charts ..................................................... 134 C. Implementation Objectives’ links with SESAR KF, ASBU blocks and more .... 135 D. SESAR Solutions implemented in a voluntary way ......................................... 140 E. Military Organisations Infrastructure ............................................................. 147 F. Glossary of abbreviations ............................................................................... 148
LSSIP Year 2019 United Kingdom - Level 1 1 Released Issue
Executive Summary
National ATM Context
Member State of:
The United Kingdom remains fully engaged with the European Commission, the European Aviation Safety Agency (EASA) and Eurocontrol in the development and implementation of a Single European Sky (SES) and EASA implementing regulations. The work required from the UK Department for Transport and the UK Civil Aviation Authority is substantial and includes significant resource in support of key SES programmes and implementation such as the Performance Scheme, FABs, Standardised European Rules of the Air, Common Requirements and SESAR - including the Pilot Common Project - in support of the Air Traffic Management (ATM) Master Plan.
Main national stakeholders:
The main National Stakeholders involved in ATM in the UK, which contribute to the compilation of this document, are the following:
• UK Department for Transport (DfT) – The responsible government Department • UK Civil Aviation Authority (CAA) - National Supervisory Authority and Competent Authority • National Air Traffic Services (NATS) • Military Authorities • Heathrow Airport Holdings Limited, Global Infrastructure Partners (GIP), and Manchester Airports
Group (MAG) • Air Accidents Investigation Branch (AAIB) of the UK Department for Transport (DfT).
LSSIP Year 2019 United Kingdom - Level 1 2 Released Issue
Traffic and Capacity
Summer Forecast (May to October inclusive)
Per ACC
London Area Control London Terminal Control Prestwick ACC
United Kingdom is part of:
The UK-Ireland FAB Number of national projects: 13 Number of FAB projects: - Number of multinational projects: 5
Summary of 2019 developments:
The below legislative changes took place during 2019:
• 2019 No. 645 The Aviation Safety (Amendment etc.) (EU Exit) Regulations 2019 • 2019 No. 459 The Air Traffic Management (Amendment etc.) (EU Exit) Regulations 2019
+0.8% 2019
0.2% & 2.2%
2020-2024
2018 2019 0.19 0.24
2018 2019 0.08 0.02
2018 2019 0.34 0.26
LSSIP Year 2019 United Kingdom - Level 1 3 Released Issue
Progress per SESAR Phase
The figure below shows the progress made so far in the implementation of the SESAR baseline (Pre-SESAR and SESAR1 non-PCP) and the PCP elements.
It shows the average implementation progress for all objectives grouped by SESAR Phases, excluding those for which the State is outside the applicability area as defined on a yearly basis in the European ATM Master Plan (Level 3) 2019, i.e. disregarding the declared “NOT APPLICABLE” LSSIP progress status.
The SESAR 1 (non-PCP) progress in the graphics below for this State is based on the following objectives: AOP14; AOP15; AOP16; AOP17; AOP18; ATC02.9; ATC18; ATC19; ATC20; COM11.2.
Pre-SESAR Phase 2000 2030
79%
SESAR 1 (PCP only) 2011 2024
43%
SESAR 1 (non-PCP) 2013 2030
21%
LSSIP Year 2019 United Kingdom - Level 1 4 Released Issue
Progress per SESAR Key Feature and Phase
The figure below shows the progress made so far, per SESAR Key Feature, in the implementation of the SESAR baseline and the PCP elements. The percentages are calculated as an average, per Key Feature, of the same objectives as in the previous paragraph.
ICAO ASBUs Progress Implementation
The figure below shows the progress made so far in the implementation of the ICAO ASBUs Block 0. The overall percentage is calculated as an average of the relevant Objectives contributing to each of the relevant ASBUs; this is a summary of the table explained in Chapter 5.3 – ICAO ASBU Implementation Progress.
Block 0 2000 2024
72%
Optimised ATM Network Services
85 %
Pre-
SESA
R Ph
ase
58 %
SESA
R 1
(PCP
onl
y)
n/a
SESA
R 1
(non
-PCP
)
Advanced Air Traffic Services
78 %
Pre-
SESA
R Ph
ase
55 %
SESA
R 1
(PCP
onl
y)
42 %
SESA
R 1
(non
-PCP
)
High Performing Airport Operations
83 %
Pre-
SESA
R Ph
ase
39 %
SESA
R 1
(PCP
onl
y)
9 %
SESA
R 1
(non
-PCP
)
Enabling the Aviation Infrastructure
64 %
Pre-
SESA
R Ph
ase
22 %
SESA
R 1
(PCP
onl
y)
15 %
SESA
R 1
(non
-PCP
)
LSSIP Year 2019 United Kingdom - Level 1 5 Released Issue
ATM Deployment Outlook
Deployed in 2018 - 2019 None
- ASM Support Tools to Support Advanced FUA (AFUA) AOM19.1 - 88 % progress - New Pan-European Network Service (NewPENS) COM12 - 44 % progress - Common Flight Message Transfer Protocol (FMTP) ITY-FMTP - 41 % progress - Migrate from AFTN to AMHS COM10 - 77 % progress - Implement enhanced tactical flow management services FCM01 - 68 % progress - Improve Runway Safety by Preventing Runway Excursions SAF11 - 86 % progress - Surveillance Performance and Interoperability ITY-SPI - 78 % progress
- Voice over Internet Protocol (VoIP) in En-Route COM11.1 - 40 % progress - Electronic Dialogue as Automated Assistance to Controller during Coordination and Transfer ATC17 - 26 % progress - Management of Pre-defined Airspace Configurations AOM19.4 - 05 % progress - Harmonise Operational Air Traffic (OAT) and General Air Traffic (GAT) Handling AOM13.1 - 88 % progress - Interactive Rolling NOP FCM05 - 78 % progress - Full Rolling ASM/ATFCM Process and ASM Information Sharing AOM19.3 - 20 % progress - Free Route Airspace AOM21.2 - 11 % progress - ASM Management of Real-Time Airspace Data AOM19.2 - 18 % progress
- Voice over Internet Protocol (VoIP) in Airport/Terminal COM11.2 - 15 % progress - Electronic Terrain and Obstacle Data (eTOD) INF07 - 26 % progress - Aircraft Identification ITY-ACID - 45 % progress - Ensure Quality of Aeronautical Data and Aeronautical Information ITY-ADQ - 45 % progress - RNP Approach Procedures to instrument RWY NAV10 - 39 % progress - Information Exchanges using the SWIM Yellow TI Profile INF08.1 - 02 % progress - Automated Support for Conflict Detection, Resolution Support Information and Conformance Monitoring ATC12.1 - 47 % progress - RNP 1 in TMA Operations NAV03.2 - 16 % progress - RNAV 1 in TMA Operations NAV03.1 - 58 % progress
State Objectives
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 6 Released Issue
Deployed in 2018 - 2019 - Continuous Descent Operations (CDO) ENV01 - 100 % progress
Deployed in 2018 - 2019 None
Deployed in 2018 - 2019 None
Deployed in 2018 - 2019 None
- Airport Collaborative Decision Making (A-CDM) AOP05 - 17 % progress
- Continuous Descent Operations (CDO) ENV01 - 62 % progress
- Continuous Descent Operations (CDO) ENV01 - 82 % progress
Airport Objectives - Newcastle Airport
Airport Objectives - Birmingham Airport
By 2020 By 2021 By 2022 By 2023+
Airport Objectives - Edinburgh Airport
By 2020 By 2021 By 2022 By 2023+
Airport Objectives - Nottingham East Midlands Airport
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 7 Released Issue
Deployed in 2018 - 2019 None
Deployed in 2018 - 2019 None
Deployed in 2018 - 2019 None
- Continuous Descent Operations (CDO) ENV01 - 82 % progress
- Airport Collaborative Decision Making (A-CDM) AOP05 - 28 % progress - Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) AOP12 - 28 % progress
- AMAN Tools and Procedures ATC07.1 - 00 % progress - Initial Airport Operations Plan AOP11 - 03 % progress
- Continuous Descent Operations (CDO) ENV01 - 82 % progress
- Continuous Descent Operations (CDO) ENV01 - 82 % progress
Airport Objectives - Bristol Airport
By 2020 By 2021 By 2022 By 2023+
Airport Objectives - London Stansted Airport
By 2020 By 2021 By 2022 By 2023+
Airport Objectives - Glasgow Airport
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 8 Released Issue
Deployed in 2018 - 2019 - Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) AOP04.1 - 100 % progress - Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) AOP04.2 - 100 % progress
- Continuous Descent Operations (CDO) ENV01 - 80 % progress - Automated Assistance to Controller for Surface Movement Planning and Routing AOP13 - 07 % progress
Airport Objectives - London Heathrow Airport
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 9 Released Issue
Deployed in 2018 - 2019 None
Deployed in 2018 - 2019 None
- Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) AOP12 - 33 % progress - Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) AOP04.2 - 25 % progress - Initial Airport Operations Plan AOP11 - 11 % progress - Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) AOP04.1 - 63 % progress - Airport Collaborative Decision Making (A-CDM) AOP05 - 39 % progress
- AMAN Tools and Procedures ATC07.1 - 10 % progress
- Continuous Descent Operations (CDO) ENV01 - 82 % progress
- Time-Based Separation AOP10 - 00 % progress - Automated Assistance to Controller for Surface Movement Planning and Routing AOP13 - 00 % progress
- Airport Collaborative Decision Making (A-CDM) AOP05 - 10 % progress
- Continuous Descent Operations (CDO) ENV01 - 80 % progress
Airport Objectives - Manchester Airport
By 2020 By 2021 By 2022 By 2023+
Airport Objectives - London Luton Airport
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 10 Released Issue
Deployed in 2018 - 2019 None
- Continuous Descent Operations (CDO) ENV01 - 80 % progress - Time-Based Separation AOP10 - 01 % progress
Airport Objectives - London Gatwick Airport
By 2020 By 2021 By 2022 By 2023+
LSSIP Year 2019 United Kingdom - Level 1 11 Released Issue
Introduction
The Local Single Sky ImPlementation (LSSIP) documents, as an integral part of the Master Plan (MP) Level 3 (L3)/LSSIP mechanism, constitute a short/medium term implementation plan containing ECAC States’ actions to achieve the Implementation Objectives as set out by the MP Level 3 and to improve the performance of their national ATM System. This LSSIP document describes the situation in the State at the end of December 2019, together with plans for the next years.
Chapter 1 provides an overview of the ATM institutional arrangements within the State, the membership of the State in various international organisations, the organisational structure of the main ATM players - civil and military - and their responsibilities under the national legislation. In addition, it gives an overview of the Airspace Organisation and Classification the ATC Units, and the ATM systems operated by the main ANSP;
Chapter 2 provides a comprehensive picture of the situation of Air Traffic, Capacity and ATFM Delay per each ACC in the State. It shows the evolution of Air Traffic and Delay in the last five years and the forecast for the next five years. It also presents the achieved performance in terms of delay during the summer season period and the planned projects assumed to offer the required capacity which will match the foreseen traffic increase and keep the delay at the agreed performance level;
Chapter 3 provides the main Implementation Projects (at national, FAB and multinational level) which contribute directly to the implementation of the MP Operational Improvements and/or Enablers and Implementation Objectives. The Level 1 document covers a high-level list of the projects showing the applicable links. All other details like description, timescale, progress made and expected contribution to the ATM Key Performance Areas provided by the State per each project are available in the Level 2 document; Chapter 4 deals with other cooperation activities beyond Implementation Projects. It provides an overview of the FAB cooperation, as well as all other multinational initiatives, which are out of the FAB scope. The content of this chapter generally is developed and agreed in close cooperation between the States concerned;
Chapter 5 contains aggregated information at State level covering the overall level of implementation, implementation per SESAR Key Feature and implementation of ICAO ASBUs. In addition, it provides the high-level information on progress and plans of each Implementation Objective. The information for each Implementation Objective is presented in boxes giving a summary of the progress and plans of implementation for each Stakeholder. The conventions used are presented at the beginning of the section.
The Level 1 document is completed with a separate document called LSSIP Level 2. This document consists of a set of tables organised in line with the list of Implementation Objectives. Each table contains all the actions planned by the four national stakeholders (REG, ASP, MIL and APO) to achieve their respective Stakeholder Lines of Action (SLoAs) as established in the European ATM Master Plan L3 Implementation Plan Edition 2019. In addition, it covers a detailed description of the Implementation Projects for the State as extracted from the LSSIP Data Base.
The information contained in Chapter 5 – Implementation Objectives Progress is deemed sufficient to satisfy State reporting requirements towards ICAO in relation to ASBU (Aviation System Block Upgrades) monitoring.
LSSIP Year 2019 United Kingdom - Level 1 12 Released Issue
1. National ATM Environment
Geographical Scope
International Membership
The UK is a Member of the following international organisations in the field of ATM:
Organisation Since
ECAC Nov/1955
Eurocontrol Dec/1960
EASA Sep/2003
ICAO Apr/1947
JAA 1989
NATO Apr/1949
EDA 2004
Geographical description of the FIR(s)
The geographical scope of this document addresses the London and Scottish FIRs/UIRs and associated areas of airspace where provision of ATS has been delegated to NATS. NATS also provides air traffic services within the Shanwick Oceanic Control Area (OCA); provision for such services being delegated by ICAO to the United Kingdom as a NAT Provider State. The development of such services is beyond the scope of this document.
The Swanwick and Prestwick Centres provide Air Traffic Services (ATS) in en-route airspace to GAT at and above FL245 within the London and Scottish Upper Information Regions (UIR).
The Swanwick and Prestwick Centres also provides ATS to GAT in both en-route and TMA airspace, below FL245, within the London and Scottish Flight Information Regions (FIR); the airspace being allocated according to operational requirements.
The London and Scottish FIR/UIRs are surrounded by the FIR/UIRs of 7 States, namely France (France UIR Paris FIR and Brest FIR), Ireland (Shannon FIR/UIR), Iceland (Reykjavik FIR), Norway (Norway FIR/UIR), Denmark (Copenhagen FIR), The Netherlands (Amsterdam FIR) and Belgium (Brussels FIR/UIR). Through airspace delegated from The Netherlands and Belgium to Eurocontrol, the London UIR also interfaces with the Maastricht Upper Area Control Centre (MUAC).
The Prestwick Centre also interfaces with the NAT (North Atlantic) ATS providers of Shanwick OCA, Denmark (Copenhagen FIR) and Reykjavik OCA.
The provision of military area radar services and ATS to OAT in the London and Scottish FIR/UIR is the responsibility of RAF (Unit) Swanwick as is the provision of ATS, by arrangement and agreement, to off-route GAT within appropriate surveillance coverage and Operational Areas of Responsibility (AoR) being designated as appropriate. If the RAF (Unit) Swanwick is for any reason unable to provide a service, NATS retains responsibility for the provision of an ATS. Other ATS providers may also provide an appropriate ATS within their own AoR.
LSSIP Year 2019 United Kingdom - Level 1 13 Released Issue
Airspace Classification and Organisation
The following classification of airspace is applied in the UK.
Flight Level UK
Upper Limit 660
195 – 660 C
SFC – 195 G
Type of Airspace Structures and Classifications
Major TMA A C D
Minor TMA E
CTA A C D E
AWY A C D E
CTR D
There are currently six TMAs in the UK:
• 3 TMAs Solely Class A (Channel Islands North TMA; Channel Islands South TMA, London TMA)
• 1 TMA Part Class A and Class C (Manchester TMA) • 1 TMA Solely Class D (Belfast TMA). • 1 TMA Part Class D and Part Class E (Scottish TMA);
There are currently forty-three CTAs in the UK:
All Control Areas (Airways) below FL 195 as notified within the UK FIR (with some exceptions, which are notified as Class C, D or E) are notified as Class A; above FL 195 they are all notified as Class C.
There are currently twenty-nine CTRs in the UK, all notified as Class D.
The above data was correct as of 5 December 2019.
LSSIP Year 2019 United Kingdom - Level 1 14 Released Issue
ATC Units
The following Table lists the ACCs, and associated FIRs/UIRs, in the UK airspace, which are of concern to this LSSIP:
ATC Unit Number of sectors Associated FIR(s) Remarks
En-route TMA
NATS Swanwick 23 44 London FIR/UIR This is the maximum potential configuration.
The TMA total includes some sectors which also provide a limited en-route service and some which provide approach services for London airports.
NATS Prestwick 27 Scottish and London FIR/UIR
This is the maximum potential configuration.
Prestwick Centre sectors operate across both en-route and TMA environments.
National Stakeholders
The main National Stakeholders involved in ATM in the UK, which contribute to the compilation of this document, are the following:
• UK Department for Transport (DfT) – The responsible government Department
• UK Civil Aviation Authority (CAA) - National Supervisory Authority and Competent Authority
• National Air Traffic Services (NATS)
• Military Authorities
• Heathrow Airport Holdings Limited, Global Infrastructure Partners (GIP), and Manchester Airports Group (MAG)
• Air Accidents Investigation Branch (AAIB) of the UK Department for Transport (DfT).
Their activities are detailed in the following subchapters and their relationships are shown in the diagram below.
LSSIP Year 2019 United Kingdom - Level 1 15 Released Issue
Civil Regulator(s)
General Information
The Civil Aviation Authority (CAA) is a public corporation providing independent advice to the DfT and regulation of all aspects of the aviation industry. The Department for Transport is the UK government department responsible of air traffic management matters including the UK's membership of EUROCONTROL. DfT represents the UK in the Provisional Council and Permanent Commission.
LSSIP Year 2019 United Kingdom - Level 1 16 Released Issue
An overview of the regulatory bodies in the UK can be seen in the table below:
Activity in ATM: Organisation responsible Legal Basis
Rule-making DfT acting on recommendations from the Civil Aviation Authority (CAA), and subject to rule-making processes at European Union level. Safety and Airspace Regulation Group (SARG), CAA.
The CAA is designated as the NSA by the UK Government under the Single European Sky (National Supervisory Authority) Regulations 2013 (Statutory Instrument 2013 No. 2620). http://www.legislation.gov.uk/uksi/2013/2620/contents/made Rule-making powers arise under the Civil Aviation Act 1982, the Air Navigation Order 2016.
Safety Oversight UK CAA/SARG (NSA as per SES Regulations, Competent Authority under EASA Regulations).
The CAA is designated as the NSA by the UK Government under the Single European Sky (National Supervisory Authority) Regulations 2013 (Statutory Instrument 2013 No. 2620). Under Article 270 of the UK Air Navigation Order 2016 the CAA is: 1. The NAA (National Aviation Authority) of the UK for the purposes of the Basic EASA Regulation. 2. The competent authority of the UK for the purposes of the EASA Aircraft Certification Regulation. 3. The competent authority of the UK for the purposes of the EASA Aircrew Regulation. 4. The competent authority for the UK for the purposes of the EASA Continuing Airworthiness Regulation. 5. The competent authority for the UK for the purposes of the EASA Air Operations Regulation, except that the Secretary of State is the competent authority of the UK for the purposes of Subpart RAMP of Part-ARO. 6. The competent authority for the UK for the purposes of the EASA Aerodromes Regulation. 7. The competent authority for the UK for the purposes of the Standardised European Rules of the Air Regulation. 8. The competent authority of the UK for the purposes of EU-OPS. 9. The NSA and the competent authority of the UK for the purposes of Articles 4 and 27 of the EASA Air Traffic Controllers’ Licensing Regulation; and 10. The competent authority of the UK for the purposes of the Occurrence Reporting Regulation. Under Article 271 of the UK Air Navigation Order, the functions conferred on the UK by Article 14(4) of the Basic EASA Regulation (Regulation (EU) No 2018/1139) are to be exercised by the CAA: subject to obtaining the consent of the Secretary of State prior to granting any exemption in accordance with Article 14(4) which is repetitive or is for more than two months. Under Article 272 of the UK Air Navigation Order, the function conferred on the UK by Article 4(8) of the EASA Aircrew Regulation is to be exercised by the CAA. Under Article 273 of the UK Air Navigation Order, the functions conferred on the UK by Articles 3(2), 4(3), 5(2), 5(6), 5(7), 6(3), 7(3), 8(2), 9, 13(6), 13(7), 13(8), 13(10), 13(11), 13(12), 15(1), 15(2), and 16(3) of the Occurrence Reporting Regulation are to be exercised by the CAA.
LSSIP Year 2019 United Kingdom - Level 1 17 Released Issue
Enforcement actions in case of non-compliance with safety regulatory requirements
CAA Air Navigation Order 2016 for Licensing, Approvals and Certificates. SES and EASA legislation for Certifications and Designations (under the SES Service Provision, EASA BR, Common Requirements and Safety Oversight Regulations (under EASA Regulations 1034/2011 and 1035/2011); ATFM under the SES ATFM Regulation; and Interoperability under the high-level SES Interoperability Regulation and Implementing Rules made under it. Criminal sanctions for breaches of: (1) SES requirements under the Air Navigation (Single
European Sky) (Penalties) Order 2013 (Statutory Instrument 2013 No.2874); and
EASA requirements under the Air Navigation Order 2016 Article 265(5) to (7) and Schedule 13 Parts A, B, C and D.
Airspace DfT acting on recommendations from the CAA. CAA SARG
Both UK and European level regulations.
Economic DfT in the light of advice from the CAA /UK CAA the Consumer and Markets Group (CMG)
Both UK and European level regulations.
Environment DfT/UK CAA. Both UK and European level regulations.
Security UK CAA AAA deals with security aspects of the EASA Common Requirements Regulations for ANSPs. CAA (Avsec) deals with the compliance monitoring and oversight of aviation security more generally. Policy aspects of security are handled by DfT Transec.
Both UK and European level regulations.
Accident investigation Air Accidents Investigation Branch (AAIB)
The Air Accidents Investigation Branch (AAIB) is an independent part of the DfT and is not part of the CAA. Its purpose is to improve aviation safety by determining the causes of accidents and serious incidents and making Safety Recommendations to prevent accidents in the future. Civil investigations into combined military and civil accidents are conducted in accordance with Regulation (EU) No 996/2010 (as amended by Regulations (EU) Nos 376/2014 and 2018/1139) on the investigation and prevention of accidents and incidents in civil aviation, the Civil Aviation (Investigation of Air Accidents and Incidents) Regulations 2018 (SI 2018 No.321) and the (Armed Forces (Service Inquiry) Regulations 2008 (SI 2008 No 1651). The investigations will be carried out in parallel by respective accident investigation organisations of the Air Accidents Investigation Branch (AAIB) and Military Air Accidents Branch (MAAIB). Each organisation will provide a Liaison Officer to assist in the process and ensure factual data is shared.
(*) Commission Regulation (EC) 1034/2011. - In line with ICAO Annex 11, Section 2.27, Regulation EC 1034/2011 requires the monitoring and assessment by competent authorities of the levels of safety achieved against the safety regulatory requirements applicable in the airspace blocks under their responsibility.
LSSIP Year 2019 United Kingdom - Level 1 18 Released Issue
The UK Secretary of State for Transport has given the CAA Directions – The Civil Aviation Authority (Chicago Convention) Directions 2007 - to ensure that the UK discharges its obligations under the Convention and after consultation with the CAA. The CAA must (inter alia) ensure that when exercising its statutory functions, it acts consistently with the obligations placed on the UK under the Convention; it must, in relation to Convention Annexes and PANS, consider whether it is necessary to amend UK legislation to ensure appropriate implementation of an ICAO provision; and where implementation of an ICAO provision is an EC responsibility, the CAA must assist in the development of the EC measure, where appropriate implement in the UK any part of an ICAO provision excluded from the EC measures, and assist the EC in determining whether any Difference should be notified to ICAO.
Safety performance targets and objectives are not defined in the UK but may be addressed in the Commission Regulation referred to above or AMC/GM developed under it. More generally ICAO provisions call for States to establish a safety programme in order to achieve an acceptable level of safety performance; and that the acceptable level of safety to be achieved is established by the State concerned. The UK ALoSP is comprised of three safety performance targets:
1. Fatal accident rate 5 year rolling average is in the best 5% of States; 2. SPIs track the frequency of operational events regarded as potential precursors to fatal accidents, and
indicate continuous improvement in reducing these risks; and 3. Compliance with ICAO SARPs of at least 90% with sound and considered rationale where differences
have been filed.
The EU Occurrence Reporting Regulation (376/2014) has replaced articles in the UK ANO on occurrence reporting. The CAP 382 ‘Mandatory Occurrence Reporting Scheme’ publication is now a series of web pages which offers guidance on adhering to the regulation on the reporting, analysis and follow up of occurrences in civil aviation and Commission Implementing Regulation (EU) 2015/1018 laying down a list classifying occurrences in civil aviation to be mandatorily reported, the European rules and its Guidance Material.
The latest version is at CAP 382.
The CAA receives reports on air traffic control services, navigation and communications equipment, airfield facilities and ground occurrences. These reports include, for example, loss of standard separation, wake vortex encounters, runway incursions and ground collisions. Each event is recorded on a database and coded in order to aid further analysis of trends. The database is used to produce high-level safety performance indicators for ATM-related safety occurrences. Safety data is collated and reported to Eurocontrol on a six-monthly basis (March and September) for the Annual Safety Report, in accordance with Regulations No. 996/2010, (No. 1035/2011 and “national authority” data provision requirements under Annex IV of the SES Performance Regulation (No.390/2013). For the RP2 period from 1 January 2015, the UK and Irish FAB Performance Plan contains not just a FAB just culture target around training, but also a FAB NSA policy approach to the just culture issues.
Civil Aviation Authority / DGCA
Following the Public-Private Partnership arrangements for NATS introduced in 2001, the UK CAA has a wholly regulatory relationship with NATS. Indeed, there is full separation in the UK between service provision and oversight. As the NSA, the CAA's stated aim is to be the 'the most competent and respected aviation regulator through an open and fair regulatory regime, and to champion the sustainable interests of air travellers and airspace users.' The CAA's current roles that are relevant to this document encompass economic regulation, safety regulation and airspace policy. However, the CAA also has an environmental strategic objective, which is relevant to many elements of sustainable and efficient ATM. The function of oversight of aviation security transferred from DfT (Transec) to the CAA in 2014.
LSSIP Year 2019 United Kingdom - Level 1 19 Released Issue
The Consumer and Markets Group (CMG) aims to secure the best sustainable outcome for users of air transport services by providing economic regulation and policy advice. Under powers granted in the Civil Aviation Act 2012 CMG’s responsibilities include the economic licensing of airport operators meeting a competition test of dominance. This replaces the system under which the former Regulatory Policy Group (RPG) regulated three “designated” airports (Heathrow, Gatwick and Stansted). CMG also provides policy advice to the DfT on airports and competition policy. In relation to the NATS En Route plc (NERL) ATS Licence, CMG has a key role to play in co-ordinating the licence management function across the CAA as well as applying the economic regulatory aspects of the Licence (issued under the Transport Act 2000). Within the licence management function, and within the enabling statute (the Transport Act 2000), the CAA has an overriding safety duty.
The Safety and Airspace Regulation Group (SARG) mission is ‘to ensure that risks to civil aviation safety are properly controlled’ and to support the CAA’s role ‘to provide best practice regulation and expert advice that are independent and enable civil aviation to best meet the needs of its users and society in a safe and sustainable manner’. For the purposes of this document, SARG regulates all civil ATS providers and UK-registered aircraft operators. SARG also provides specialist advice to the DfT. SARG plays a significant role in the work of the Eurocontrol Safety Regulatory Commission (SRC) and is instrumental in many aspects of the development of European ATM/ANS safety regulation. SARG has been fully engaged in the development of SES Phase 2+, the development of EASA ATM Regulations, and supporting the DfT in negotiations in Council for the amendment of the Basic EASA Regulation.
SARG is responsible for planning and managing the efficient use of the airspace over the UK to meet the needs of all airspace users, taking into account national security and environmental issues. Consultation is conducted through the National Air Traffic Management Advisory Committee (NATMAC) and its subgroups. SARG staff contribute significantly to a number of Eurocontrol work streams and domains related to airspace and air navigation issues, such as the Network Operations (NETOps) and the Agency Advisory Body (AAB). SARG staff also represent the UK in the Civil-Military Interface Committee (CMIC). Policy and technical advice is provided to the DfT. SARG and representatives from the CAA’s Corporate Strategy and Policy Department (CSP) and CMG also represent the UK on the Single Sky Committee and its ad-hoc working groups and in rule-making and other working groups within EASA. They also represent the CAA in engagement with the SESAR Joint Undertaking and in the NSA Coordination Platform (NCP) and its working groups. They also provide significant UK representation on ICAO Panels and other technical fora.
Annual Report published: Y CAP1806 – Civil Aviation Authority Annual Report & Accounts 2018/189
CAA Annual Report & Accounts 2018/2019
http://www.caa.co.uk/
LSSIP Year 2019 United Kingdom - Level 1 20 Released Issue
Air Navigation Service Provider(s)
Services provided
Name of the ANSP: NATS
Governance: Public Private Partnership as of 2001 Ownership: - 49% State-owned (Govt retains a Golden Share). - 51% private-owned (42% by the Airline Group (*), 4% by Heathrow Airports Limited and 5% by NATS employees).
Services provided Y/N Comment
ATC en-route Y NATS (En Route) plc (NERL).
ATC approach Y Provided for those UK airports detailed in the Licence as London Approach. NATS Services Ltd (NSL) provides approach services at specific UK airports under contractual arrangements with the Airport Operator.
ATC Aerodrome(s) Y NSL provides services at specific UK airports under contractual arrangements with the Airport Operator.
AIS Y NSL under contract to NERL
CNS Y
MET Y
ATCO training Y
Others Y Provides ATC Approach/Aerodrome services at Wattisham, Netheravon, Woodvale, Barkston Heath and Middle Wallop through AQUILA partnership.
Additional information:
Provision of services in other State(s):
Y • Provides ATC Approach/Aerodrome services at Gibraltar. • Provides Aerodrome services at 10 airports in Spain through a partnership with
Ferrovial Servicios.
Annual Report published: Y
http://www.nats.aero/news/annual-report-accounts-2019/
(*)The Airline Group comprises: British Airways plc, Deutsche Lufthansa AG, easyJet Airline Company Limited, the Pension Protection Fund, TUI Airways Limited, Virgin Atlantic Airways Limited and USS Sherwood Limited.
www.nats.co.uk
ATC systems in use
According to European Regulation 552/2004 on the Interoperability of the European Air Traffic Management Network, Chapter 3 defines the ATS Systems (systems and procedures for air traffic services, in particular flight data processing systems, surveillance data processing systems and human-machine interface systems).
NATS operates different ATS systems for each of its centres and at the airports at which it has contractual arrangements; the ATS systems in use at the airports include some common components and some differences.
All of NATS’ ATS Systems and their complex sub-systems are in a process of improvement; most systems are developed in close cooperation with a variety of different manufacturing companies whilst for others NATS is the manufacturer itself. Regardless of the source, NATS Engineering and the respective Operations and Services teams are always closely involved in the improvement processes of the NATS ATS systems.
NATS continues to progress its major strategic programme aimed at Deploying SESAR through a new technology platform and the deployment of new SESAR aligned methods of working across the operation.
LSSIP Year 2019 United Kingdom - Level 1 21 Released Issue
Whilst NATS recognises that plans remain subject to change as operational and business conditions alter, an overview of the current plans is as follows:
EATMN System Manufacturer Major upgrade[1] Year
(Recent and Planned)*
Assumptions
1. Systems and procedures for airspace management.
NATS with additional Vendor
Upgrades through 2018-2020
Major upgrade planned through 2020-2025
SAIP AD4-AD6
LAMP & PLAS deliveries through RP3
2. Systems and procedures for air traffic flow management.
Multiple External Vendors
Upgraded through 2015 to 2018.
Major upgrade planned 2020-2021
Continuous improvements on TOMS systems
iACM update through DP Enroute
3. Systems and procedures for air traffic services, in particular flight data processing, surveillance data processing and human-machine interface systems.
Multiple External Vendors
Major upgrade on-going through 2016 to 2021.
Further major enhancements planned 2022-2025
iTEC delivery through DPEnroute
iTEC delivery through DPLower
4. Communications systems and procedures for ground-to-ground, air-to-ground and air-to-air communications.
Multiple External Vendors
Major upgrades through 2018-2021
DPVoice
5. Navigation systems and procedures.
Multiple External Vendors
Upgrade on-going 2014 to 2020 DVOR replacement project
6. Surveillance systems and procedures.
Multiple External Vendors
Planned upgrade 2021 to 2025 Radar replacement programme through RP3
7. Systems and procedures for aeronautical information services.
Multiple External Vendors
Upgrade continuing over the period 2014 to 2020
AIS updates through RP2
8. Systems and procedures for the use of meteorological information.
Multiple External Vendors
Major upgrade 2015.
No upgrades planned in the immediate future.
* Note that all dates are provisional and remain subject to alteration depending upon business and operational requirements.
[1] Upgrade is defined as any modification that changes the operational characteristics of the system (SES Framework Regulation 549/2004, Article 2 (40))
LSSIP Year 2019 United Kingdom - Level 1 22 Released Issue
Airports
General information
Heathrow Airport Holdings Limited owns and runs London Heathrow airport, Heathrow being the largest and busiest airport in the UK. Heathrow Airport Holdings Limited is in turn owned by FGP Topco Limited, a consortium owned and led by the infrastructure specialist Ferrovial S.A.
Gatwick Airport has the world’s busiest single-use runway and is the UK’s second busiest airport. The airport is owned by Global Infrastructure Partners (GIP), an Infrastructure owning company that has its operational headquarters in Stamford, Connecticut. GIP is also the owner of Edinburgh (sixth busiest airport in the UK) and London City Airport (fourteenth busiest airport in the UK).
Manchester Airports Group (MAG) is now the country’s largest UK owned airport operator. Manchester Airport, which is the UK's third busiest airport is wholly owned by the ten local authorities of Greater Manchester and is operated by The Manchester Airports Group MAG also operates Stansted airport which is the fourth busiest airport in the UK and East Midlands Airport which is the thirteenth busiest Airport in the UK.
London Luton Airport is owned by Luton Borough Council. It is listed as the fifth busiest airport in the UK.
Birmingham Airport is owned by seven Metropolitan Boroughs of West Midlands (49%) and the Airport Group Investments Ltd (approx. 48%) and the Employees through a share scheme (for the remainder). It is currently the seventh busiest airport in the UK.
Glasgow Airport is now owned and operated by AGS Airports Limited. AGS Airports is a partnership between Ferrovial and Macquarie Infrastructure and Real Assets (MIRA) established in 2014 to invest in Aberdeen, Glasgow and Southampton airports. It is currently the eighth busiest airport in the UK.
Bristol Airport is owned by the Ontario Teachers’ Pension Plan. It is currently the ninth busiest airport in the UK.
Belfast International airport is owned and operated by Airports Worldwide, private multi-national company a partnership between HAS Development Corporation and OMERS Infrastructure. Belfast International is listed as the tenth busiest airport in the UK.
Other airports within the UK are operated by private companies or consortia of companies, while only a very limited number of airports remain in local government ownership.
Note: The airports above are ranked based on Terminal passenger movements.
LSSIP Year 2019 United Kingdom - Level 1 23 Released Issue
Airport(s) covered by the LSSIP
Airport (ICAO code)
AOP 04.1
AOP 04.2
AOP05 AOP10 AOP11 AOP12 AOP13 AOP14 ATC 07.1
ENV01 ENV02 ENV03
Manchester (EGCC) -
London Gatwick (EGKK) -
London Heathrow (EGLL) -
London Stansted (EGSS) - -
Birmingham (EGBB) - - - - - -
Bristol (EGGD) - - - - - - - - - -
Glasgow (EGPF) - - - - - - - - -
Edinburgh (EGPH) - - - - - -
London Luton (EGGW) - - - - - - - - -
London City (EGLC) - - - - - - - - - -
Newcastle (EGNT) - - - - - - - - -
Nottingham East Midlands (EGNX) - - - - - - - - - - -
Legend:
In the applicability area & Completed.
In the applicability area but Not yet Completed. - Not in the applicability area.
Military Authorities
The Defence Airspace and Air Traffic Management Organisation (DAATM), Ministry of Defence (MoD) is the policyholder for all airspace and airspace management related issues. The Military Aviation Authority (MAA) has full oversight of all Defence aviation activity and undertakes the role of the single military regulatory authority responsible for regulating all aspects of air safety across Defence, including ATM. The MAA develops, promulgates and enforces a regulatory framework to promote an active safety culture and assure appropriate standards are being met in the delivery of military air safety through an independent end-to-end assurance process. The aim is to enhance the delivery of operational capability through continual improvement in military air safety, culture and practice. The MAA, thereby, provides assurance to the Secretary of State through the Permanent Under Secretary that high standards of air safety are maintained in the conduct of military aviation. Headquarters Air Command (HQ AIR) is the HQ responsible for the provision of Air Traffic Services and ATM at both Royal Air Force (RAF) Terminal Units (including Army bases where ATS is either provided by RAF staff or contractors) and the Military ATCCs. HQ Navy Command is the equivalent organisation for the Royal Navy (RN) ATC, units both onshore and embarked.
LSSIP Year 2019 United Kingdom - Level 1 24 Released Issue
The DAATM, HQ AIR and HQ Navy liaise directly with the relevant operational departments at NATS ACCs and Airports, and other airports as required. Direct liaison with the Civil Aviation Authority (CAA) Safety and Airspace Regulation Group (SARG), the UK Airspace Regulator, is maintained to progress service provision issues. The CAA SARG is also staffed in part by a number of RAF and RN military officers on secondment to the CAA. These personnel are employed in a number of Airspace Regulatory and Airspace Utilisation roles and provide essential support to the CAA, thus maintaining a joint ethos. A close working relationship has been established over the years between civil and military controllers and civil and military ATM staff, which is essentially a result of the UK’s Joint & Integrated (J&I) approach to the provision of ATS.
Airspace is shared in the UK; however, NATS mainly provides ATS to aircraft within en-route CAS. The Military ATCC is collocated within the Swanwick Civil ACC and provides ATS to aircraft in the UK FIRs and UIRs, including radar-crossing services through CAS for military and civilian aircraft. Military controllers at the ACC also provide Area Radar services to aircraft from ground level to unlimited altitude within radar cover. Terminal ATM is provided by military personnel at RAF and RN airfields, and by civilian personnel at airfields where ATS are contracted to civilian companies. Aircraft operators are governed by regulations issued by the MAA. Military Terminal ATC units normally provide ATS to aircraft arriving at, and departing from their units. Additionally, at specified ATS units, a Lower Airspace Radar Service can also be provided up to FL 95, normally within 40nms from the unit. Military controllers do not normally provide ATS to aircraft in Terminal Control Airspace, with the exception of RAF Northolt ATC, nor normally in airspace within which ATS is delegated to adjacent States.
ATS provided by Air Defence Units are specifically for Air Defence Training and operational defence of the Homeland. Air Defence units are also regulated by HQ AIR and HQ Navy, adhering to MoD policy.
A J&I ATS are provided by civil and military Air Navigation Service Providers, under policy overseen by the Joint Air Navigation Services Council (JANSC). The JANSC is chaired by the SARG Director, CAA and includes senior executives from the en-route ANSPs and the MoD.
The regulatory, service provision and user roles in ATM are detailed overleaf.
Regulatory role
Regulatory framework and rule-making
OAT GAT
OAT and provision of service for OAT governed by national legal provisions?
Y Provision of service for GAT by the Military governed by national legal provisions?
Y
Level of such legal provision: Ministerial Decree through the Defence Council.
Level of such legal provision: State Law authorised through the CAA.
Authority signing such legal provision: Permanent Under Secretary of State for Defence
Authority signing such legal provision: Secretary of State for Transport and Department for Business, Enterprise and Regulatory Reform.
These provisions cover: These provisions cover:
Rules of the Air for OAT
Organisation of military ATS for OAT Organisation of military ATS for GAT
OAT/GAT Co-ordination OAT/GAT Co-ordination
ATCO Training ATCO Training
ATCO Licensing ATCO Licensing
ANSP Certification ANSP Certification
ANSP Supervision ANSP Supervision
Aircrew Training ESARR applicability
Aircrew Licensing
LSSIP Year 2019 United Kingdom - Level 1 25 Released Issue
Oversight
Service Provision role
Military ANSP providing GAT services SES certified?
n/a If YES, since: Duration of the Certificate:
Certificate issued by: If NO, is this fact reported to the EC in accordance with SES regulations?
n/a
Additional Information: The UK Military ANSP operates to an equivalent standard.
Additional Information: This is published through Joint Service Publications, ATM Orders and other orders contained in the Military Regulatory Publications
Additional Information: Nil.
Means used to inform airspace users (other than military) about these provisions:
Means used to inform airspace users (other than military) about these provisions:
National AIP National AIP
National Military AIP National Military AIP
EUROCONTROL eAIP EUROCONTROL eAIP
Other: Flight Information Publications, Websites, such as the CAA and Manual of Air Traffic Services
Part 2
Other:
OAT GAT
National oversight body for OAT: Military Aviation Authority
National Supervisory Authority (as per SES reg. 550/2004) for GAT services provided by the military: The Civil Aviation Authority.
Additional information: Nil. Additional information: Nil.
OAT GAT
Services Provided: Services Provided: Military do not participate, civil provide:
En-Route Provided by Mil and Civil En-Route
Approach/TMA Provided by Mil and Civil Approach/TMA
Airfield/TWR/GND Provided by Mil and Civil Airfield/TWR/GND
AIS Provided by Mil and Civil AIS
MET Provided by Mil and Civil MET
SAR Provided by Civil SAR
TSA/TRA monitoring FIS
Other: Distress and Diversion Cell
VHF and UHF alerting and fixing Mil only capability
Other:
Additional Information: Nil. Additional Information: Nil.
LSSIP Year 2019 United Kingdom - Level 1 26 Released Issue
User role
Flexible Use of Airspace (FUA)
IFR inside controlled airspace, Military aircraft can fly?
OAT only GAT only Both OAT and GAT
If Military fly OAT-IFR inside controlled airspace, specify the available options:
Free Routing Within specific corridors only
Within the regular (GAT) national route network Under radar control
Within a special OAT route system Under service
If Military fly GAT-IFR inside controlled airspace, specify existing special arrangements:
No special arrangements Exemption from Route Charges
Exemption from flow and capacity (ATFCM) measures Provision of ATC in UHF
CNS exemptions: RVSM 8.33 Mode S ACAS
Others: There are military CNS exemptions that allow certain non-equipped military aircraft to access controlled airspace. UHF is provided.
Military applies FUA requirements as specified in the Regulation No 2150/2005: Y
FUA Level 1 implemented: Y
FUA Level 2 implemented: Y
FUA Level 3 implemented: Y
LSSIP Year 2019 United Kingdom - Level 1 27 Released Issue
2. Traffic and Capacity
Evolution of traffic in United Kingdom
2019 Traffic in the UK increased by 0.8 % in 2019 compared to 2018.
2020-2024
The EUROCONTROL Seven-Year Forecast predicts an average annual traffic growth between 0.2% and 2.2% during the planning cycle, with an average baseline growth of 1.4%.
0
500000
1000000
1500000
2000000
2500000
3000000
3500000
2015 A 2016 A 2017 A 2018 A 2019 F 2020 F 2021 F 2022 F 2023 F 2024 F 2025 F
IFR
flig
hts
UK - Annual IFR Movements
IFR movements - Actuals
IFR movements - Baseline forecast
IFR movements - High forecast
IFR movements - Low forecast
International Dep/Arr 69%
Domestic flights 14%
Overflights17%
UK - Distribution (Ref. year 2018)
IFR flights yearly growth 2016 A 2017 A 2018 A 2019 F 2020 F 2021 F 2022 F 2023 F 2024 F 2025 FH 1.7% 2.7% 2.3% 3.0% 1.8% 1.7% 1.5%B 5.4% 3.5% 0.9% 1.5% 1.7% 1.2% 2.1% 1.3% 1.3% 0.8%L 1.0% -0.1% 0.1% 0.4% 0.3% 0.4% -0.3%
ECAC B 2.8% 4.0% 3.8% 1.1% 2.3% 1.9% 2.2% 1.8% 1.9% 1.4%
EUROCONTROL Seven-Year Forecast (Autumn 2019)
UK
A = Actual
F = Forecast
LSSIP Year 2019 United Kingdom - Level 1 28 Released Issue
LONDON EN-ROUTE ACC
Traffic and en-route ATFM delays 2015-2024
Performance summer 2019
London ACC
Traffic evolution (2019 vs 2018) En-route Delay (min. per flight) Capacity (2019 vs 2018) Traffic Forecast
Actual Traffic All reasons ACC Reference Value Current
Routes Shortest Routes
Planned Achieved Capacity gap?
Year H: 2.4% B: 1.8% L: 0.2%
No significant
impact
+1.4% 0.15 0.18
Summer +1.1% 0.24 467 (+1.5%) 460 (+0%) No
Average en-route delay per flight increased from 0.19 minutes per flight in summer 2018 to 0.24 minutes per flight in summer 2019 (May to October inclusive). 37% of the summer delays were for the reason Weather, 30% for ATC Staffing, 26% for ATC Capacity and 7% for the reason Airspace Management. The capacity baseline of 460 was calculated with ACCESS. During the period June/July, the peak hour demand was 461, the peak 3 hour demand was 416.
Operational actions Achieved Comments
Project Lightning Yes Implemented 28/02
Improved ATFCM, including STAM Yes
UK / Ireland FAB initiatives Yes
RP2/RP3 Airspace Development Programme Yes Several airspace changes implemented
AD5 Yes Implemented 08/11
Maturing Queue Management programme Yes Cross border XMAN for Gatwick (Oct)
Flexible use of existing staff (including cross-sector training) more closely related to sector demand Yes
On-going recruitment to maintain agreed business service levels Yes
Complexity reduction and improved traffic presentation between sectors / ANSPs Yes
2015 2016 2017 2018 2019 2020 2021 2022 2023 2024Peak Day Traffic 6300 6617 6898 7057 7018Summer Traffic 5784 6076 6336 6422 6490Yearly Traffic 5172 5411 5641 5729 5811Summer Traffic Forecast 6575 6689 6837 6954 7047High Traffic Forecast - Summer 6641 6840 7064 7199 7316Low Traffic Forecast - Summer 6446 6481 6522 6550 6567Summer enroute delay (all causes) 0.09 0.11 0.14 0.19 0.24Yearly enroute delay (all causes) 0.06 0.08 0.09 0.11 0.15
0.0
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1000
2000
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6000
7000
8000
Enro
ute
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ay (m
inut
es p
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ight
)
IFR
flig
hts (
Daily
Ave
rage
)
EGTTACC - Traffic and en-route ATFM delays
LSSIP Year 2019 United Kingdom - Level 1 29 Released Issue
Traffic Management Improvements Yes
Adaptation of sector configurations to demand Yes
Training for new controller working positions No Postponed to 2020-2022
Training for AD5 Yes
Maximum configuration: 23 sectors Yes
Planning Period 2020-2024 – summer
The planning focuses on the Summer season to reflect the most demanding period of the year from a capacity perspective. This approach ensures consistency with the previous planning cycles.
The measures for each year are the measures that will be implemented before the summer season.
Summer Capacity Plan
2020 2021 2022 2023 2024
Free Route Airspace FRA Deployment 2
Airspace Management
Advanced FUA A-FUA
Airport & TMA Network Integration LAMP
EGFF, EGGD, EGTE
LAMP
EGHI, EGHH,
EGUF
Cooperative Traffic Management Improved ATFCM, including STAM
Airspace UK / Ireland FAB initiatives
RP2/RP3 Airspace Development Programme
Airspace Deployments LAMP LAMP
Maturing Queue Management programme
Staffing Flexible use of existing staff (including cross-sector training) more closely related to sector demand
On-going recruitment to maintain agreed business service levels
Technical
DP ER Swanwick
(new system)
Capacity
Complexity reduction and improved traffic presentation between sectors / ANSPs
Traffic Management Improvements
Adaptation of sector configurations to demand
Initial dynamic sectorisation
Significant Events Training for DP ER Training for LAMP
Max sectors 23 23 23 23 23
Planned Annual Capacity Increase 1% 1% 0% 3% 1%
Reference profile Annual % Increase 0% 0% 0% 2% 2%
Difference Capacity Plan v. Reference Profile 1.1% 2.2% 1.7% 3.2% 2.5%
Annual Reference Value (min) 0.24 0.24 0.22 0.20 0.21
Additional information
LSSIP Year 2019 United Kingdom - Level 1 30 Released Issue
The graphs above show an outline of available sector configurations for a typical weekday and a weekend day for summer 2020. Based on the traffic forecast, it is expected that 20 sectors should be sufficient to cope with the traffic demand. However, a maximum of 23 sectors might be open during the peaks if necessary. Detailed sector configurations will be sent to NM on a daily basis and may differ from the graphs above. It should be noted that sector configurations data has changed from previous NOP versions and now reflect more accurate reflection of actual en-route controller positions and does not include all support and coordinator positions which were previously supplied.
2020-2024 Planning Period Outlook
No capacity issues are expected over the planning period at London ACC.
0
5
10
15
20
2500
:00
02:0
0
04:0
0
06:0
0
08:0
0
10:0
0
12:0
0
14:0
0
16:0
0
18:0
0
20:0
0
22:0
0
EGTT - Sectors available - Summer 2020 - WD
0
5
10
15
20
25
00:0
0
02:0
0
04:0
0
06:0
0
08:0
0
10:0
0
12:0
0
14:0
0
16:0
0
18:0
0
20:0
0
22:0
0
EGTT - Sectors available - Summer 2020 - WE
2018 2019 2020 2021 2022 2023 2024Reference Capacity Profile 460 460 462 469 477Capacity Profile - Shortest Routes (Open) 460 460 462 469 477Capacity Profile - Current Routes 460 460 463 470 478Capacity Profile - High 460 463 476 485 492Capacity Profile - Low 460 460 460 460 460Capacity Baseline 460 4602020 - 2024 Plan 465 470 470 484 489
300
350
400
450
500
550
Capa
city
prof
ile (m
ovem
ents
per
hou
r)
EGTTACC - Reference capacity profile and alternative scenarios
LSSIP Year 2019 United Kingdom - Level 1 31 Released Issue
LONDON TERMINAL CONTROL (TC)
Traffic and en-route ATFM delays 2015-2024
Performance summer 2019
London TC
Traffic evolution (2019 vs 2018) En-route Delay (min. per flight) Capacity (2019 vs 2018) Traffic Forecast
Actual Traffic All reasons ACC Reference Value Current
Routes Shortest Routes
Planned Achieved Capacity gap?
Year H: 1.7% B: 1.2% L: -0.4%
No significant
impact
+0.1% 0.16 0.10
Summer -0.5% 0.26 298 (+3%) 305 (+6%) No
Average en-route delay per flight decreased from 0.34 minutes per flight in summer 2018 to 0.26 minutes per flight in summer 2019. 47% of the summer delays were due to the reason ATC Staffing, 35% due to Weather, and 17% due to ATC Staffing. The ACC capacity baseline was measured with ACCESS at 305. During the period June/July, the peak hour demand was 301, the peak 3 hour demand was 275.
Operational actions Achieved Comments
Improved ATFCM, including STAM Yes
RP2/RP3 Airspace Development Programme Yes Several airspace changes implemented
AD5 Yes Implemented 08/11
Developing Queue Management programme Yes
Flexible use of existing staff Yes
On-going recruitment to maintain agreed business service levels Yes
Adaptation of sector configurations to demand Yes
Traffic management improvements Yes
Complexity reduction and improved traffic presentation between sectors / ANSPs Yes
Maximum configuration: 17 Yes
2015 2016 2017 2018 2019 2020 2021 2022 2023 2024Peak Day Traffic 4319 4563 4615 4695 4660Summer Traffic 3935 4109 4235 4255 4231Yearly Traffic 3626 3767 3883 3911 3914Summer Traffic Forecast 4260 4328 4419 4481 4525High Traffic Forecast - Summer 4294 4415 4532 4599 4649Low Traffic Forecast - Summer 4175 4198 4225 4244 4255Summer enroute delay (all causes) 0.09 0.22 0.16 0.34 0.26Yearly enroute delay (all causes) 0.06 0.19 0.12 0.31 0.16
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Enro
ute
Del
ay (m
inut
es p
er fl
ight
)
IFR
flig
hts (
Daily
Ave
rage
)
EGTTTC - Traffic and en-route ATFM delays
LSSIP Year 2019 United Kingdom - Level 1 32 Released Issue
Planning Period 2020-2024 – summer
The planning focuses on the summer season to reflect the most demanding period of the year from a capacity perspective. This approach ensures consistency with the previous planning cycles.
The measures for each year are the measures that will be implemented before the summer season.
Summer Capacity Plan
2020 2021 2022 2023 2024
Free Route Airspace
Airspace Management
Advanced FUA
Airport & TMA Network Integration Farnborough ACP AD6
LAMP
EGFF, EGGD, EGTE
LAMP
EGHI, EGHH,
EGUF
AMAN Stansted IPA TBS Gatwick
Cooperative Traffic Management Improved ATFCM, including STAM
Airspace RP2/RP3 Airspace Development Programme
Airspace Deployment Farnborough ACP AD6 IPA
LAMP LAMP
Procedures Developing Queue Management programme
Staffing Flexible use of existing staff
On-going recruitment to maintain agreed business service levels
Technical eTBS Pairwise
DP Lower Swanwick
(new system)
Capacity
Adaptation of sector configurations to demand
Traffic Management Improvements
Complexity reduction and improved traffic presentation between sectors / ANSPs
Significant Events Training for AD6 Training DP Lower
Training for LAMP
Max sectors 19 19 19 19 19
Planned Annual Capacity Increase 1% 2% 2% 1% 0%
Reference profile Annual % Increase 0% 1% 1% 2% 1%
Difference Capacity Plan v. Reference Profile 0.7% 1.9% 2.9% 2.2% 0.9%
Annual Reference Value (min) 0.14 0.14 0.12 0.10 0.10
Additional information
LSSIP Year 2019 United Kingdom - Level 1 33 Released Issue
The graphs above show an outline of available sector configurations for a typical weekday and a weekend day for summer 2020. Based on the traffic forecast, it is expected that 17 sectors should be sufficient to cope with the traffic demand. However, a maximum of 19 sectors might be open during the peaks if necessary. Detailed sector configurations will be sent to NM on a daily basis and may differ from the graphs above. It should be noted that sector configurations data has changed from previous NOP versions and now reflect more accurate reflection of actual en-route controller positions and does not include all support and coordinator positions which were previously supplied.
2020-2024 Planning Period Outlook
No capacity issues are expected over the planning period in London TC.
02468
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EGTTTC - Sectors available - Summer 2020 - WD
02468
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EGTTTC - Sectors available - Summer 2020 - WE
2018 2019 2020 2021 2022 2023 2024Reference Capacity Profile 306 308 311 316 320Capacity Profile - Shortest Routes (Open) 306 308 311 316 320Capacity Profile - Current Routes 306 308 311 316 320Capacity Profile - High 307 312 318 323 327Capacity Profile - Low 305 305 306 306 307Capacity Baseline 289 3052020 - 2024 Plan 308 314 320 323 323
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EGTTTCTA - Reference capacity profile and alternative scenarios
LSSIP Year 2019 United Kingdom - Level 1 34 Released Issue
PRESTWICK ACC
Traffic and en-route ATFM delays 2015-2024
Performance summer 2019
Prestwick ACC
Traffic evolution (2019 vs 2018) En-route Delay (min. per flight) Capacity (2019 vs 2018) Traffic Forecast
Actual Traffic All reasons ACC Reference Value Current
Routes Shortest Routes
Planned Achieved Capacity gap?
Year H: 1.4% B: 0.7% L: -0.6%
No significant
impact
+0.4% 0.01 0.14
Summer +0.6% 0.02 242 (+1%) 240 (+0%) No
Average en-route delay per flight decreased from 0.08 minutes per flight in summer 2018 to 0.02 minutes per flight in summer 2019. 59% of the summer delays were due to the reason ATC Capacity, 34% due to Weather, and 4% due to Airspace Management. The ACC capacity baseline was measured with ACCESS at 240. During the period June/July, the peak hour demand was 227, the peak 3 hour demand was 212.
Operational actions Achieved Comments
Project Lightening Yes
Improved ATFCM, including STAM Yes
PLAS3 Yes
UK / Ireland FAB initiatives Yes
CPDLC Yes
Developing Queue Management programme Yes
Flexible use of existing staff Yes
On-going recruitment to maintain agreed business service levels Yes
Adaptation of sector configurations to demand Yes
Traffic management improvements Yes
Complexity reduction and improved traffic presentation between sectors / ANSPs Yes
Maximum configuration: 20 Not required 18 sectors were opened
2015 2016 2017 2018 2019 2020 2021 2022 2023 2024Peak Day Traffic 3169 3353 3589 3541 3597Summer Traffic 2700 2893 3104 3110 3128Yearly Traffic 2441 2603 2784 2801 2813Summer Traffic Forecast 3159 3198 3253 3300 3335High Traffic Forecast - Summer 3190 3263 3362 3429 3476Low Traffic Forecast - Summer 3110 3115 3122 3121 3120Summer enroute delay (all causes) 0.02 0.51 0.11 0.08 0.02Yearly enroute delay (all causes) 0.01 0.30 0.07 0.06 0.01
0.0
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EGPXALL - Traffic and en-route ATFM delays
LSSIP Year 2019 United Kingdom - Level 1 35 Released Issue
Planning Period 2020-2024 – summer
The planning focuses on the summer season to reflect the most demanding period of the year from a capacity perspective. This approach ensures consistency with the previous planning cycles.
The measures for each year are the measures that will be implemented before the summer season.
Summer Capacity Plan
2020 2021 2022 2023 2024
Free Route Airspace FRA
Airspace Management Advanced FUA A FUA
Airport & TMA Network Integration PLAS 3C PLAS 4
PLAS 5
Cooperative Traffic Management Improved ATFCM, including STAM
Airspace PLAS 3C
UK / Ireland FAB initiatives
Procedures CPDLC
Developing Queue Management programme
Staffing Flexible use of existing staff
On-going recruitment to maintain agreed business service levels
Technical
DP ER Prestwick Upper (new system) DP Lower Prestwick
(new system)
Capacity
Adaptation of sector configurations to demand
Traffic Management Improvements
Complexity reduction and improved traffic presentation between sectors / ANSPs
Significant Events Training for DP ER Training for PLAS deployments Training for DP ER
Max sectors 20 20 20 20 20
Planned Annual Capacity Increase 2% 1% 3% 2% 2%
Reference profile Annual % Increase 0% 0% 0% 0% 1%
Difference Capacity Plan v. Reference Profile 2.1% 2.5% 5.0% 6.6% 7.8%
Annual Reference Value (min) 0.15 0.15 0.13 0.11 0.11
Additional information
The graphs above show an outline of available sector configurations for a typical day for summer 2020. Based on the traffic forecast, it is expected that 18 sectors should be sufficient to cope with the traffic demand. However, a maximum of 20 sectors might be open during the peaks if necessary. Detailed sector configurations will be sent to NM on a daily basis and may differ from the graphs above.
0
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25
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EGPX - Sectors available - Summer 2020
LSSIP Year 2019 United Kingdom - Level 1 36 Released Issue
It should be noted that sector configurations data has changed from previous NOP versions and now provide more accurate reflection of actual en-route controller positions and does not include all support and coordinator positions which were previously supplied.
2020-2024 Planning Period Outlook
No capacity issues are expected over the planning period at Prestwick ACC.
2018 2019 2020 2021 2022 2023 2024Reference Capacity Profile 240 241 242 243 245Capacity Profile - Shortest Routes (Open) 240 241 242 243 245Capacity Profile - Current Routes 240 241 242 243 245Capacity Profile - High 241 242 244 247 250Capacity Profile - Low 240 240 240 240 240Capacity Baseline 240 2402020 - 2024 Plan 245 247 254 259 264
150
170
190
210
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270
Capa
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ovem
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EGPXACC - Reference capacity profile and alternative scenarios
LSSIP Year 2019 United Kingdom - Level 1 37 Released Issue
3. Implementation Projects
The tables below presents the high-level information about the main projects currently ongoing in UK. The details of each project are available in Chapter 2 of the Level 2 - Detailed Implementation Status document.
National projects
Name of project: Organisation(s): Schedule: Status: Links:
A-SMGCS upgrade to provide airport safety nets and routing & planning functions (2015_298_AF2)
GATWICK Airport (UK) 01/07/2016 - 31/12/2020 Integrated Controller Working Position project initiated. Phase 1 focuses on the creation of an Innovation & Test Lab that will be used by ATCO’s to develop future state workflows and HMI’s (by March 2020). The base configuration system is now being developed by Honeywell. The Eurocontrol ASMGCS specification (publ. May 2018) will be used as the foundation for future ASMGCS services.
L3: AOP12, AOP13 DP: Project 2015_298_AF2; Family 2.5.1
LSSIP Year 2019 United Kingdom - Level 1 38 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
Enhanced Departure Management integrating airfield surface assets
GATWICK Airport (UK) 01/03/2015 - 31/12/2020 • All GAL motorised fleet have been fitted with telematics (landside and airside teams) • Large third party suppliers have the majority of their fleet fitted (GHS, PRM, Fuellers etc.), this is still work in progress with the quality of the GPS data being transmitted to Casper, some parties transmitting 35-40 seconds, 2-5 seconds is mandated by GAL to give accurate journey readings. • Airside geofences have been completed and uploaded as of December 2019 • We can now show vehicle journeys (graphically, on a Gatwick airfield map) to assist the investigation of RTIs, improve root cause analysis, and reduce time required to undertake investigations Complete
L3: AOP12 DP: Project 092AF2; Family 2.5.1
LSSIP Year 2019 United Kingdom - Level 1 39 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
Enhanced Terminal Airspace (TMA) using RNP-Based Operations
GATWICK Airport (UK) 01/01/2014 - 31/03/2022 Delivered replicated RNAV1 SIDs for each SID route from 08L and 26R. Work in progress to improve RNAV1 SID replication (Routes 2, 4 and 5) following post implementation review recommendations. Additional RNAV1 SID (ADNID trial halted) and ADNID SID permanently withdrawn. Feasibility and options study of RNAV 1 arrival transitions to be conducted (to be used at night) leveraging the lessons learned from the proposed Noise Respite Trials which form part of Noise Management Board 2017/18 work programme.
L3: NAV03.1 L2: AO-0601, AO-0602 DP: Project 091AF1; Family 1.2.3
LSSIP Year 2019 United Kingdom - Level 1 40 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
Implementation of Initial SWIM Capability (AF5) across NATS
NATS (UK) 01/01/2014 - 31/12/2024 - The deployment of the EIS is in progress, software has been procured. According to current milestones, an implementation for internal NATS use, with some Yellow Profile capabilities, is currently scheduled for March 2020, after which there will be a series of updates leading to an initial operational implementation supporting most of the SESAR SWIM Yellow Profile by April 2021 with a full implementation provided at a later date - It should be noted that EIS deployment had a number of dependencies both internal and external, for example the SWIM Technical Infrastructure (TI) was originally based on SESAR 1 material but has since been succeeded by the Eurocontrol Yellow Profile issued in December 2017.
DP: Projects 117AF5; Family 5.2.2
LSSIP Year 2019 United Kingdom - Level 1 41 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
Integrated Ground Management (GMAN) (2015_299_AF2)
GATWICK Airport (UK) 01/04/2016 - 31/10/2020 During 2019 the focus of the project has been on developing & testing the dynamic stand planning algorithms that are required in order to optimise stand utilisation on a demand driven basis. As part of this work the project team conducted a full review of the existing stand planning rules and physical stand infrastructure. The algorithms have now been successfully tested in a prototype version of the system against the required set of defined performance KPI's (e.g. Pier Service Level, Number of Tows). The plan for early 2020 is to build upon the success of the prototype tests conducted during late 2019 and move into a more formal project process for the development of the production system. This will include formal development activities for the definition & build of non-functional requirements (e.g. full system resilience & redundancy), testing, parallel
L3: AOP13 DP: Project 2015_299_AF2; Family 2.1.4
LSSIP Year 2019 United Kingdom - Level 1 42 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
running and safety assurance approvals, all of which will be supported by the appropriate governance approaches to manage delivery risk. The latter part of the year will focus on integration, and user acceptance training, obtaining final safety approvals and preparing for solution go live.
Manchester TMA Re-Development (119AF1)
NATS (UK) 01/01/2014 - 31/10/2022 Ongoing L3: NAV03.1 DP: Project 119AF1; Family 1.1.2
Mil MTCD Advanced Controller Tools (FOURSIGHT) (2015_269_AF3)
MIL (UK) 01/03/2016 - 20/04/2020 Project on-going despite INEA funding being withdrawn. The expected delivery date is aligned with DP-ER.
L3: ATC12.1 DP: Project 2015_269_AF3; Family 3.2.1
Time-Based Separation for Final Approach
GATWICK Airport (UK) 30/01/2017 - 31/12/2022 Engaged with NATS and ANS; NATS asked to explore delivery acceleration opportunities Pre F&O completed by NATS for LGW review Full Technical F&O required, LGW awaiting formal offer from NATS Delivery of TBS integrated with AMAN/DMAN data targeted for 2022 (subject to NATS DP LOWER implementation on time in April 2022)
L3: AOP10 DP: Project 094AF2; Family 2.3.1
LSSIP Year 2019 United Kingdom - Level 1 43 Released Issue
Additional national projects Airspace Modernisation Strategy (AMS) The UK’s Future Airspace Strategy (FAS) was developed by the CAA, in cooperation with the Department for Transport, Ministry of Defence, NATS and key aviation stakeholders, to address the development of UK airspace to 2030. In 2018 this was updated and is now known as the UK Airspace Modernisation Strategy (AMS) which now has an overall governance structure led by UK Secretary of State for Transport, recognising the strategic importance of modernising UK airspace, tools and procedures. This AMS replaces the Future Airspace Strategy and sets out the ways, means and ends of modernising airspace through 15 initiatives that will modernise the design, technology and operations of airspace, initially focusing on the period until the end of 2024. These include the removal of all fixed routes in upper airspace so aircraft can fly fully optimised routes, a fundamental redesign of the terminal route network using precise and flexible satellite navigation, and the focus on electronic surveillance solutions to improve safety and enable better integration of all airspace users. The AMS sets out a new shared objective for modernising airspace which is to deliver quicker, quieter and cleaner journeys. This will mean more choice and value for consumers, allowing airlines to add new flights, reducing flight delays and enhancing global connections that can help economy, while continuing to improve safety standards and being more environmentally friendly. Coupled with the adoption of new technology by existing airspace users, it will also help pave the way for increased safe access for newer airspace users like drones and spacecraft. The governance structure also includes the creation of an Airspace Change Organising Group (ACOG) which brings together NATS, the airports involved in airspace change, airlines to deliver a coordinated package of change and public engagement that is required to successfully modernise some of the busiest and most complex airspace in Europe. Re-design will be based on a computer aided design methodology allowing faster evaluation of design iterations and benefits modelling. In addition, AMS has sponsored activities including the following areas:
• Flexible Use of Airspace State Project bringing together military and civil stakeholders to modernise FUA airspace tools, procedures and reporting
• Continued development of Meteorological support to airports and ATM • Completion of PBN research developing updated rules and procedures for systemisation of lower airspace
and implementation of Free Route Airspace • Completion of roll-out of Departure Planning Information to ensure that ATC and NM tools have a more
accurate and up to date demand picture • Development of standards for lightweight transponders and the use of ADS-B data from RPAS and general
aviation aircraft by operators, ANSPs and airports
iTEC – interoperability Through European Collaboration - European Flight Data Processing NATS is in the process of replacing its current civil Flight Data Processing System and the military Flight Data Processing System with iTEC, steering the civil and military operations towards commonality and convergence. The iTEC FDP is a trajectory based system, which will deliver enhanced ATC tools to the operational users at all NATS En Route and eventually terminal units. The key elements to the deployment are as shown below:
• Joint acquisition and development with AVINOR, DFS, Enaire, LVNL, PANSA and Oro Navigacija of the iTEC product from Indra;
• Minor amendments to the iTEC product to suit the specific needs of UK ATM; • Changes to the existing NATS systems to interface with the iTEC Product; • Changes to support a deployment onto modern data centre architecture; • The development and delivery of a strategic HMI and procedures designed to work with iTEC and support
the tasks in all NATS En Route units.
LSSIP Year 2019 United Kingdom - Level 1 44 Released Issue
Through a combination of product developments in the ATM marketplace and regular assessments of NATS long-term investment plan (LTIP) and associated strategies, NATS have decided that the delivery of a new workstation with its associated controller capabilities and tools is now a realistic opportunity. This offers a much more optimal delivery plan yielding greater overall benefits realisation. As such, the iTEC programme has been extended in duration to create the space for the deployment and delivery of iTEC and new strategic workstations at each of the units. In the meantime, significant progress has been made on the iTEC programme with a deployment already in place at Prestwick Centre Upper Airspace. NATS have had a number of builds of software delivered from Indra and the product is undergoing numerous verification and validation activities. NATS is also working closely with the other partners of the iTEC Collaboration on Methods of Operation within Upper and Lower Airspace. The target dates for the delivery of iTEC and the new workstation at each of the NATS units are as follows:
• Prestwick Upper Airspace sectors (PC) – Full Operational Service. Completed June 2016; • London Area Control (including Military) (AC) – By November 2021; • Prestwick Lower Airspace– By November 2023; • London Terminal Control (TC) – by early RP4.
V1 of iTEC and the workstation for NATS was delivered within the upper airspace of PC, whilst V2 of iTEC will be delivered within the AC and TC deployments as well as the remainder of PC. Once iTEC is fully deployed at all units the current FDP systems and a number of other existing NATS systems will be decommissioned to reduce on-going operating costs. NATS is also accelerating its process of ‘Legacy escape’ and embarking on a strategy to Deploy SESAR concepts across its operations by 2023.
NERL Roadmap The NATS strategy is to consolidate and rationalise its asset base to reduce operating costs whilst investing in new common technologies to safely meet the growth in traffic and to ensure regulatory compliance. We are changing the way we offer services by moving to a One Operation across Two Centres on a Common Platform approach, thus enabling NATS to realise real efficiency and flexibility in the way we provide our operational services. Additionally, NATS will migrate to a Service Oriented Architecture (SOA); this will enable NATS to rationalise its current business, bringing together systems and people to deliver ATM services. By 2025, NATS anticipate having replaced the ageing and expensive legacy systems with new SESAR-compliant technology and reduced the overall number of assets NATS own; the new equipment will provide a single operational platform across all units, with specific tools supporting the upper and lower airspace. The operational platform will be easily reconfigurable, allowing any workstation to operate any sector of airspace in the London or Scottish FIR. The platform will improve contribution to customer benefits in terms of:
• Safety Improvements: introduction of controller support tools; • Capacity and fuel efficiency: earlier support for Free Route upper airspace and systemised terminal
airspace; • Reduced operating costs: common systems based on industry standard component. • Increased resilience: resilient architecture with increased operational flexibility both for normal operations
and contingency.
Prestwick Lower Airspace Systemisation (PLAS) Prestwick Lower Airspace Systemisation (PLAS) formerly Northern Terminal Control Area (NTCA)
• Providing 3nm separation capability below FL285 within required regions. (Implemented 02/03/2017); • IOM/Antrim sectors redesign to improve capacity and reduce complexity. (Implemented 09/11/2017); • RNAV 1 STAR (Newcastle & Doncaster), New Birmingham RNAV1 SID to align with PLAS (implemented May
2019); • New Doncaster RNAV1 SIDs and associated CAS to be implemented 27th Feb 2020; • Manchester TMA re-design – including procedurally deconflicted arrivals and departures for all airfields
(including point merge at Manchester) Introduction of RNAV 1/RNP 1 SIDs & RNAV 1 STARs; • MAG (Manchester Airports Group) have commenced ACP through CAP1616. Target date March 2022.
Liverpool have progressed through to Stage 3 of CAP1616. Indicative implementation date September 2021. Leeds ACP failed in 2019. Future plans are unknown but will need to progress through CAP1616 and timelines may be behind Manchester TMA.
LSSIP Year 2019 United Kingdom - Level 1 45 Released Issue
• Route improvements in ScTMA (Scottish Terminal Manoeuvring Area) to provide safety, capacity and environmental benefits;
• ScTMA Edinburgh have commenced ACP under CAP1616 targeting Mar 2022. Glasgow have also commenced ACP target at Dec 2022.
• ACOG (Airspace Change Organising Group) will be formally taking over timeline and managing the process and are currently in discussion with airports and NERL to produce a FASI N Masterplan and will seek to realign dates to fit.
Queue Management – Cross Border Arrival Management (XMAN) • SESAR Context
The SESAR concept of Extended Arrival Management, is a development of Arrival Management and extends the managed distance out from the airport concerned Extending the horizon provides more time for queue management to act on the traffic and provides greater benefits in terms of flight efficiency, environmental impact and punctuality. To keep a high runway throughput, relieve congestion and minimize arrival queuing time a smooth and optimal arrival flow is computed. The Solution relies upon a delay sharing strategy such that the ATC system integrates information from arrival management systems operating out to an extended distance to provide an enhanced and more consistent arrival sequence. Handling of the traffic is performed in En-Route phase which allows a more efficient management of delays and reduces waiting times in TMA holding patterns (fuel reduction). (www.sesarju.eu SESAR Solutions – Advanced Air Traffic Services).
• Heathrow Extended Arrival Management Procedure (XMAN) – in operational service
Heathrow XMAN extends arrival management to a horizon of approximately 350nm from Heathrow. XMAN partners MUAC, DSNA, IAA and NATS controllers at Prestwick slow Heathrow arrivals when delay is predicted above a threshold value. This saves approximately 50kg per slowed flight during the remaining portion of en route flight and reduces stack holding by 1 minute. NATS controllers apply a reduced descent speed when delay remains above a trigger value, further reducing stack holding by up to 2 minutes per slowed flight.
• Gatwick Extended Arrival Management Procedure (XMAN)
SESAR project PJ25 demonstrated the benefits of Gatwick extended arrivals management procedures (XMAN) during autumn 2019 and these procedures have since transitioned into permanent operational service since Nov 2019. This includes the same two-phase activity in use at Heathrow, i.e. aircraft are slowed by neighbouring ANSPs at the XMAN 350nm horizon when delay exceeds a threshold value, and NATS controllers apply a reduced speed descent when delay remains. NATS and Gatwick Airport also share arrival and departure sequence and delay information so that both parties can agree on a suitable runway spacing policy to balance arrival and departure delay early enough to support stable planning at the XMAN horizon (approximately 50-55 mins) and airport stand planning. This aspect is not yet operational pending Gatwick Airport adopting A-CDM departure procedures.
Harmonised 18,000ft Transition Altitude
NATS, along with 16 airports in the SE of England, have embarked upon a major airspace modernisation programme that will fundamentally change the operation in the affected area. At the same time, NATS are working alongside several airports in the Manchester area for the same purpose. Building upon the previous work carried out to investigate a harmonised Transition Altitude at 18000ft, as part of previous airspace change programmes, NATS will work alongside airports, customers, MOD and other airspace users in order to evaluate options for a suitable transition altitude that provides cost effective benefits to all. The modernisation programmes will look at near, middle and far term options (extending out towards 2040); that approach will allow consideration for a TA that is deemed appropriate for the circumstances of each area and phase of work. Much of this effort will extend into and through RP3 and the UK can confirm that financial provision has been planned for within the settlement for that 5-year window.
LSSIP Year 2019 United Kingdom - Level 1 46 Released Issue
FAB projects
Due to BREXIT discussions and implications the UK Ireland FAB is not running any formal FAB level projects currently. When the future of the post BREXIT relationship is clearer (dependent on the form of the Brexit deal or lack thereof) the FAB may reconvene under an appropriate collaborative arrangement to consider new projects. Close cooperation between CAA and IAA (NSAs) on operational oversight matters and safety data sharing continues unabated during the BREXIT transition period (up to 31 December 2020) under the UK/Ireland’s Safety Partnership arrangement. Details of previous projects (now complete) are available on the website: https://www.ukirelandfab.eu/
LSSIP Year 2019 United Kingdom - Level 1 47 Released Issue
Multinational projects
Name of project: Organisation(s): Schedule: Status: Links:
AOP-NOP Integration (2015_113_AF4)
HEATHROW Airport (UK) 01/03/2016 - 31/12/2019 Ongoing. L3: FCM05 DP: Project 2015_113_AF4; Family 4.2.4
Borealis FRA Implementation (Part 2) (2015_227_AF3_A; 2015_227_AF3_B)
ANS Finland (FI), EANS (EE), IAA-ATS Provider (IE), LFV (SE), LGS (LV), NATS (UK), Naviair (DK)
15/02/2016 - 31/12/2020 Ongoing. L3: AOM21.2 DP2: Project 2015_227_AF3_A and 2015_227_AF3_B; Family 3.2.4
Deploy SWIM Governance (2016_141_AF5)
Met Office (UK) 07/02/2016 - 01/06/2020 The project is nearing completion (95.02% declared progress Jan 2020) but has been extended to June 2020 to ensure implementation of the governance. The MO is involved in this IP through the main project partner EUMETNET. As a participant we have assisted in the content of documents related to the Policies, Handbook and Processes. This is to ensure that as a SWIM Provider MET is well represented as many others in this project are consumers of SWIM so have a different perspective on some of the documentation being written.
DP: 2016_141_AF5
LSSIP Year 2019 United Kingdom - Level 1 48 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
European Harmonised Forecasts of Adverse Weather (Icing, Turbulence, Convection and Winter weather) (2015_068_AF5)
Met Office (UK) 01/10/2016 - 30/09/2020 Overall progress: 71.07% (as at mid-January 2020). The project has been delivering routine input data feeds between the NMS from mid-2019 with each NMS taking the lead on a parameter to develop a weighting system to harmonise these datasets. At the MO, an equal weighting methodology has been applied to develop a harmonised turbulence output. The code is now being redeveloped within a cloud environment, working closely with the IP69 (MET-GATE) team, who are turning the product into a SWIM service. Most technical elements of the project will be complete by end December 2020 but an extension has been requested to end of September 2021, primarily as a result to significant changes in input models from all three contributing partners in 2020 which will require additional work to integrate, consolidate and test the output.
-
LSSIP Year 2019 United Kingdom - Level 1 49 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
European MET Information Exchange (MET-GATE) (2015_069_AF5)
Met Office (UK) 01/10/2016 - 30/09/2020 Overall progress: 69.27% (as at mid-January 2020) with progress on track for technical delivery by the end of 2020 but with a project extension request to finalise some documentation and take on board any user feedback. The project was previously realigned to deliver SWIM services (from IP67 and 68) but with each NMS focusing on its own access point rather than the original plan of a broker and nodes. During 2019, progress was made by each partner for the specifications, operational requirements and development of access points. The Met Office is developing their access point using cloud technology and has a full architectural plan which is now moving into the build phase, starting with the data sharing platform. Prototypes of services and/or access point system were demonstrated by Meteofrance.
DP: Project 2015_069_AF5; Family 5.4.1
LSSIP Year 2019 United Kingdom - Level 1 50 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
European Meteorological Aircraft Derived Data Center (EMADDC) (2015_137_AF5)
Met Office (UK) 01/03/2016 - 31/12/2020 Overall progress: 32.08% (as at mid January 2020), with the set-up of EMADCC a bit behind schedule but moving in the right direction with Feb 2019 marking a significant milestone when EMADCC V1.0 became operational. The EMADDC processes the data into input-quality controlled - derived - observations for wind speed, wind direction and Temperature. The MO have prepared a number of MODE-S receivers which have been deployed at radar sites in the UK. It is anticipated that prior to summer 2020 that the current test data streams will be made operational as a new geographically independent heading algorithm is established by KNMI. A EUMETNET EMADDC business case is developed to include EMADDC as a European service under the EUMETNET Aircraft Based Observation Programme (E-ABO) as of 2021 (decision summer 2020).
DP: Project 2015_137_AF5; Family 5.4.1
LSSIP Year 2019 United Kingdom - Level 1 51 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
European Weather Radar Composite of Convection Information Service (2015_067_AF5)
Met Office (UK) 17/10/2016 - 31/12/2020 Overall progress: 55.48% (as at mid January 2020). The Project has now requested an extension to end December 2020 to align closer to IP69 so that the end to end service through the services access points can be tested. Meteofrance have installed their new hardware upon which IRMA is now being installed and Met Office have deployed the 3D Radar Code base into the cloud infrastructure producing 'test' datasets. For both centres further refinements are required to optimise the data flows for latency. Outside of the project a task team has been established to coordinate and set up sustained agreement and procedures relating to the use of single site weather radar and how to ensure participants are satisfied their data can continue to be fed into an operational pan-European service such as the 3D radar compositing system via OPERA.
DP: Family 5.4.1; Project 2015_067_AF5.
LSSIP Year 2019 United Kingdom - Level 1 52 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
ITEC-FDP/CWP AVINOR AS (NO), DFS (DE), ENAIRE (ES), LVNL - Luchtverkeersleiding Nederland (NL), NATS (UK), ORO NAVIGACIJA (LT), PANSA (PL)
2010 - 2022 Ongoing
L3: ATC17
NewPENS Stakeholders contribution for the procurement and deployment of NewPENS (Part A: General Call; Part B: Cohesion Call) (2015_174_AF5_A; 2015_174_AF5_B)
NATS (UK) 15/02/2016 - 31/12/2020 NewPENS has been deployed at three NATS sites (Swanwick, Prestwick and Heathrow) under an internal project (L5267 - NewPENS). The migration of services from current PENS to NewPENS has already started are due to be completed well before May 2020 when the current PENS Contract expires. The migration of the following services is in scope of this project: AMHS, CHMI, EAD, NM entry nodes, FMTP, NM Voice and Operational Voice. As of end of December, 19 services (out of 55) have been successfully migrated onto NewPENS.
DP: Project 2015_174_AF5_A and 2015_174_AF5_B; Family 5.1.2
LSSIP Year 2019 United Kingdom - Level 1 53 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
Task 05 - Migration of applications to NewPENS: Preparation of the running up of the local projects by all Stakeholders has started and migration of services from current PENS to NewPENS is underway. So far, around a third of the services have been successfully migrated under Task 05 in co-ordination with our international ANSP partners and Eurocontrol. • Transitions are underway, with regular meetings held to discuss and plan outstanding transitions with partnering ANSPs. Status as at end of December 2020: • AMHS – 20 transitions, 7 complete, 13 remaining. Planned to complete all by end March 2020. • CHMI – 2 transitions. All complete • EAD – 2 transitions. Very quick simple transitions, to take place on the same day, aiming for Jan 2020. • NM entry nodes - 2 transitions. All complete.
LSSIP Year 2019 United Kingdom - Level 1 54 Released Issue
Name of project: Organisation(s): Schedule: Status: Links:
• FMTP – 15 transitions, 5 complete, 10 remaining. Likely only 5 separate events. Anticipate transitions will take place as follows (tbc), Amsterdam, Oslo, Madrid – Feb, France – March, Ireland – April. • NM Voice – 2 transitions. All complete. • Operational Voice – 6 transitions, 1 complete, 5 remaining. Copenhagen Prestwick link to transition prior to Copenhagen Swanwick link. Reykjavik, Madrid and Portugal outstanding. Portugal must complete by March 2020. • Surveillance – 1 transition. Current plan is to transition Feb 2020. • XMAN/SWIM - 4 transitions, 0 complete, 3 can be scheduled, Gatwick currently not ready to transition.
LSSIP Year 2019 United Kingdom - Level 1 55 Released Issue
4. Cooperation activities
FAB Co-ordination
Due to BREXIT discussions and implications the UK Ireland FAB is not running any formal FAB level projects currently. When the future of the post BREXIT relationship is clearer (dependent on the form of the Brexit deal or lack thereof) the FAB may reconvene under an appropriate collaborative arrangement to consider new projects. Close cooperation between CAA and IAA (NSAs) on operational oversight matters and safety data sharing continues unabated during the BREXIT transition period (up to 31 December 2020) under the UK/ Ireland’s Safety Partnership arrangement. Details of previous projects (now complete) are available on the website: https://www.ukirelandfab.eu/
Multinational cooperation initiatives
A6 Alliance
The “A6 Alliance” was set up informally in 2007 between the ANSPs interested in accession to SJU membership. The membership has since changed and now includes • DFS, the German ANSP; • DSNA, the French ANSP; • ENAIRE, the Spanish ANSP; • ENAV, the Italian ANSP; • NATS, the UK ANSP; • PANSA, the Polish ANSP • Skyguide, the Swiss ANSP • COOPANS, a technical cooperation between Austrocontrol, CroatiaControl, IAA, LfV, Naviair and NAV
Portugal
The B4 Consortium (PANSA, ANS CR, LPS SR and Oro Navigacija) are also a member for work associated with SESAR 2020, whilst a cooperation agreement is also in place with HungaroControl and Romatsa for activities related to the SESAR Deployment Manager Function.
The A6 Alliance is focused on SESAR development and deployment, SESAR deployment execution (planning, governance, funding), and key strategic areas of A6 common interest related to transport and aviation legislation. The A6 Alliance leads coordination of European-wide technical activities related to ATM R&D, many of which are co-funded by the EC given that they are in service of the SES framework. Through the EC Connecting Europe Facility (CEF) financial programme, successive proposals and actions driven by the SESAR Deployment Manager allowed significant financial contributions to be made to ATM industry implementation projects, in accordance with the Pilot Common Projects legislation, which set out priority areas for coordinated deployment of SESAR solutions.
The A6 Alliance is actively engaged in coordination of activities for SESAR Wave 3, as well as discussions about the evolution of the SESAR Deployment Manager, in line with the European Commission’s ambitions to reform SES and their response to the European Court of Auditors’ report on SESAR Deployment, published in 2019.
LSSIP Year 2019 United Kingdom - Level 1 56 Released Issue
Borealis Alliance
The Borealis Alliance is an industrial partnership between 9 European ANSPs - LFV (Sweden), ANS Finland (Finland), Avinor (Norway), ISAVIA ANS (Iceland), Naviair (Denmark), EANS (Estonia), IAA (Ireland), LGS (Latvia) and NATS (UK). The objective of the Alliance is to enable joint initiatives to improve flight efficiency and reduce environmental impact, delivered across the whole area in a move, which will also streamline cost of services and operational/technical infrastructure.
In 2015, the Borealis Alliance initiated the Free Route Airspace (FRA) Programme to create a multi-FAB FRA through the establishment of interfaces between FRA areas in 3 FABs (NEFAB, DK-SE FAB and UK-IRL FAB) and Iceland. The Borealis FRA concept of operation is based on the NEFRA concept, i.e. to connect the FRA volumes of 9 States seamlessly, so that these appear as one continuous FRA to airspace users. In 2019 the Borealis Alliance commenced cross-border FRA between the Maastricht UAC area of responsibility, the DK/SE FAB and the northern part of Germany; and remains open to considering other cross-border proposals should they arise.
LSSIP Year 2019 United Kingdom - Level 1 57 Released Issue
5. Implementation Objectives Progress
State View: Overall Objective Implementation Progress
The graph below shows progress for all Implementation Objectives.
50; [35%]
30; [21%]
3; [2%]
21; [15%]
13; [9%]
25; [18%]
Completed
Ongoing
Planned
Late
Not yet planned
Not Applicable
LSSIP Year 2019 United Kingdom - Level 1 58 Released Issue
AOP4.1 As planned Manchester are underway with A-SMGCS and are on course for completion in 2020.Heathrow A-SMGCS has now been completed.
AOP4.2 Heathrow has now completed the objective.
AOP05 This objective is currently on hold at Birmingham due to the delay of EFPS. A-CDM is not currently in place and implementation is now planned for no earlier than 2022 at Luton. Whilst Edinburgh continue to report ‘’No Plan’’ for AOP05, they are supportive of the principles and will be implementing actions were there not a cost barrier to implementation. Stansted continues to evaluate A-CDM and a cost analysis benefit is being undertaken to consider implementation ahead of 2021 time-scale. ACDM tender process is completed, T-system joint venture with ATRiCS data 1st Jan 2021 ‘live target date’.
FCM01 This objective is planned as part of the wider NATS systems upgrade strategy with full implementation expected circa 2020.
ENV03 Edinburgh Airspace change was approved in 2019 and the objective is now complete.
ITY-SPI is scheduled for completion by 2020 as Military complete the last stages.
ENV03 Birmingham is currently undergoing an upgrade of its noise and track-keeping system. Following this, it intends that CCOs will be monitored. To be completed 2020.
AOM13.1 This objective although late, is in the final stages and expected to be completed in 2021.
ENV02 Gatwick is now completed.
ENV03 Newcastle has now implemented the objectives, 3 RNAV SID's implemented and 70% of the departures use these.
AOP14 The Remote tower technology is progressing as planned for London City Airport. Controller training will commence in Q2 2020 with transition into full operational service planned for Q3 2020.
ITY-ACID NATS expect to achieve full compliance with ‘ACID’ IR by the end of 2023.The first part of this implementation plans to achieve compliance for our Upper Airspace at Prestwick by March 2021 and at Swanwick (AC) by November 2021 and then Lower Airspace by June 2023.
SAF11 This objective is now expected to be completed in June 2020
LSSIP Year 2019 United Kingdom - Level 1 59 Released Issue
Objective Progress per SESAR Key Feature
The Implementation objectives progress charts per Key Feature below show progress only for Implementation Objectives applicable to the State and which are not local objectives.
Note: The detailed table of links between Implementation Objectives and SESAR Key Features is available in Annex C: Implementation Objectives’ links with SESAR, ICAO and DP.
Legend:
## % = Expected completion / % Progress = Implementation Objective timeline (different colour per KF)
100% = Objective completed = Completion beyond Implementation Objective timeline
Optimised ATM Network Services
<16 16 17 18 19 20 21 22 23 24 25 >26
AOM13.1 Harmonise Operational Air Traffic (OAT) and General Air Traffic (GAT) Handling
88 %
AOM19.1 ASM Support Tools to Support Advanced FUA (AFUA)
88 %
AOM19.2 ASM Management of Real-Time Airspace Data 18 %
AOM19.3 Full Rolling ASM/ATFCM Process and ASM Information Sharing
20 %
AOM19.4 Management of Pre-defined Airspace Configurations
5 %
FCM01 Implement enhanced tactical flow management services
68 %
FCM03 Collaborative Flight Planning 100 %
FCM04.2 Short Term ATFCM Measures (STAM) - Phase 2
100 %
FCM05 Interactive Rolling NOP 78 %
FCM06 Traffic Complexity Assessment 100 %
LSSIP Year 2019 United Kingdom - Level 1 60 Released Issue
Advanced Air Traffic Services
<16 16 17 18 19 20 21 22 23 24 25 >26
AOM21.1 Direct Routing 100 %
AOM21.2 Free Route Airspace 11 %
ATC02.2 Implement ground based safety nets - Short Term Conflict Alert (STCA) - level 2 for en-route operations
100 %
ATC02.8 Ground-Based Safety Nets 100 %
ATC02.9 Short Term Conflict Alert (STCA) for TMAs 100 %
ATC07.1 AMAN Tools and Procedures
EGCC - Manchester Airport 10 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGSS - London Stansted Airport 0 %
ATC12.1 Automated Support for Conflict Detection, Resolution Support Information and Conformance Monitoring
47 %
ATC15.1 Information Exchange with En-route in Support of AMAN
100 %
ATC15.2 Arrival Management Extended to En-route Airspace
100 %
ATC16 Implement ACAS II compliant with TCAS II change 7.1
100 %
ATC17 Electronic Dialogue as Automated Assistance to Controller during Coordination and Transfer
26 %
ENV01 Continuous Descent Operations (CDO)
EGBB - Birmingham Airport 100 %
EGCC - Manchester Airport 82 %
EGGD - Bristol Airport 82 %
EGGW - London Luton Airport 80 %
EGKK - London Gatwick Airport 80 %
EGLL - London Heathrow Airport 80 %
EGNT - Newcastle Airport 100 %
EGNX - Nottingham East Midlands Airport 82 %
EGPF - Glasgow Airport 82 %
LSSIP Year 2019 United Kingdom - Level 1 61 Released Issue
EGPH - Edinburgh Airport 62 %
EGSS - London Stansted Airport 82 %
ITY-COTR Implementation of ground-ground automated co-ordination processes
100 %
NAV03.1 RNAV 1 in TMA Operations 58 %
NAV03.2 RNP 1 in TMA Operations 16 %
NAV10 RNP Approach Procedures to instrument RWY 39 %
NAV12 ATS IFR Routes for Rotorcraft Operations 0 %
High Performing Airport Operations
<16 16 17 18 19 20 21 22 23 24 25 >26
AOP04.1 Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1)
EGBB - Birmingham Airport 100 %
EGCC - Manchester Airport 63 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGPH - Edinburgh Airport 100 %
EGSS - London Stansted Airport 100 %
AOP04.2 Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2)
EGBB - Birmingham Airport 100 %
EGCC - Manchester Airport 25 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGPH - Edinburgh Airport 100 %
EGSS - London Stansted Airport 100 %
LSSIP Year 2019 United Kingdom - Level 1 62 Released Issue
AOP05 Airport Collaborative Decision Making (A-CDM)
EGBB - Birmingham Airport 17 %
EGCC - Manchester Airport 39 %
EGGW - London Luton Airport 10 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGPH - Edinburgh Airport
EGSS - London Stansted Airport 28 %
AOP10 Time-Based Separation
EGCC - Manchester Airport 0 %
EGKK - London Gatwick Airport 1 %
EGLL - London Heathrow Airport 100 %
AOP11 Initial Airport Operations Plan
EGCC - Manchester Airport 11 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGSS - London Stansted Airport 3 %
AOP12 Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC)
EGCC - Manchester Airport 33 %
EGKK - London Gatwick Airport 100 %
EGLL - London Heathrow Airport 100 %
EGSS - London Stansted Airport 28 %
AOP13 Automated Assistance to Controller for Surface Movement Planning and Routing
EGCC - Manchester Airport 0 %
EGKK - London Gatwick Airport
EGLL - London Heathrow Airport 7 %
EGSS - London Stansted Airport
SAF11 Improve Runway Safety by Preventing Runway Excursions
100 %
LSSIP Year 2019 United Kingdom - Level 1 63 Released Issue
Enabling Aviation Infrastructure
<16 16 17 18 19 20 21 22 23 24 25 >26
COM10 Migrate from AFTN to AMHS 77 %
COM11.1 Voice over Internet Protocol (VoIP) in En-Route
40 %
COM11.2 Voice over Internet Protocol (VoIP) in Airport/Terminal
15 %
COM12 New Pan-European Network Service (NewPENS)
44 %
FCM08 Extended Flight Plan 0 %
INF07 Electronic Terrain and Obstacle Data (eTOD) 26 %
INF08.1 Information Exchanges using the SWIM Yellow TI Profile
2 %
ITY-ACID Aircraft Identification 45 %
ITY-ADQ Ensure Quality of Aeronautical Data and Aeronautical Information
45 %
ITY-AGDL Initial ATC Air-Ground Data Link Services 100 %
ITY-AGVCS2
8,33 kHz Air-Ground Voice Channel Spacing below FL195
100 %
ITY-FMTP Common Flight Message Transfer Protocol (FMTP)
41 %
ITY-SPI Surveillance Performance and Interoperability 78 %
LSSIP Year 2019 United Kingdom - Level 1 64 Released Issue
ICAO ASBU Implementation Progress
The following table shows, for each of the ASBU Block 0 modules, the overall status, the final date foreseen for completion and the percentage of progress achieved in the current cycle.
These results were determined using the LSSIP Year 2019 declared statuses and progress of the relevant Implementation objectives in accordance with the mapping approved by the ICAO EUR EASPG/1 meeting (European Aviation System Planning Group).
Legend:
= Completed (during 2019 or before)
= Missing planning date
= Progress achieved in 2019 = Not applicable
<16 16 17 18 19 20 21 22 23 24 25 >26
B0-ACAS ACAS Improvements 100 %
B0-ACDM Improved Airport Operations through Airport-CDM
100 %
B0-APTA Improved Airport Accessibility 100 %
B0-ASUR Improved access to Optimum Flight Levels through Climb/Descent Procedures using ADS-B
100 %
B0-CCO Improved Flexibility and Efficiency in Departure Profiles
100 %
B0-CDO Improved Flexibility and Efficiency in Descent Profiles (CDOs)
100 %
B0-DATM Service Improvement through Digital Aeronautical Information Management
100 %
B0-FICE Increased Interoperability, Efficiency and Capacity through Ground-Ground Integration
100 %
B0-FRTO Improved Operations through Enhanced En-Route Trajectories.
100 %
B0-NOPS Improved Flow Performance through Planning based on a Network-Wide view
100 %
B0-RSEQ Improved Runway Traffic Flow through Sequencing (AMAN/DMAN)
100 %
B0-SNET Ground based safety nets 100 %
B0-SURF Improved Runway Safety (A-SMGCS Level 1-2 and Cockpit Moving Map)
100 %
B0-TBO Improved Safety and Efficiency through the initial application of Data Link En-Route
100 %
72.18 %
39.0 %
78.0 %
36.36 %
84.33 %
45.0 %
84.0 %
66.93 %
94.91 %
LSSIP Year 2019 United Kingdom - Level 1 65 Released Issue
Detailed Objectives Implementation progress
Objective/Stakeholder Progress Code:
Completed Not yet planned
Ongoing Not Applicable
Planned Missing Data
Late
Main Objectives
AOM13.1
Harmonise Operational Air Traffic (OAT) and General Air Traffic (GAT) Handling Timescales: Initial operational capability: 01/01/2012 Full operational capability: 31/12/2018
88% Late
Key Feature: Optimised ATM Network Services -
-- 30/12/2021 REG (By:12/2018)
MIL
The MoD is content that UK Military Regulations meet current UK/EC/NATO requirements. Some changes may be necessary with the implementation of EUROAT but this cannot be confirmed until the final version is published, at which point the Military Aviation Authority will amend any affected regulation.
- 100%
Completed
31/12/2011
CAA
The UK has adopted the EUROAT provisions with effect from 1 October 2011 (the required EUROAT timescale) as the national policy for OAT-IFR, subject to the national variations listed in Annex 4 Country Chapter for the United Kingdom submitted to EUROCONTOL on 3 August 2011.
- 100%
Completed
31/12/2011
ASP (By:12/2018)
MIL Activity in this area is continually monitored by the MoD. - 100% Completed
31/01/2007
NATS
NATS participates fully in harmonised OAT/GAT handling through shared equipment, facilities and mutually agreed procedures. Harmonisation at FAB level is ensured by co-ordination through a FAB Management Board. Activity in this area is continually monitored by NATS.
- 100%
Completed
31/12/2011
MIL (By:12/2018)
MIL Arrangements are in place to harmonise OAT and GAT handling to the maximum extent possible within the UK. - 75% Late
30/12/2021
LSSIP Year 2019 United Kingdom - Level 1 66 Released Issue
AOM19.1
ASM Support Tools to Support Advanced FUA (AFUA) Timescales: Initial operational capability: 01/01/2011 Full operational capability: 31/12/2018
88% Late
Links: B1-FRTO, B1-NOPS | Key Feature: Optimised ATM Network Services -
- 30/04/2020 ASP (By:12/2018)
MIL - - 83% Late 30/04/2020
NATS
NATS utilises LARA V3 in order to secure the appropriate connectivity with the NM system; NATS await a formal LoA with the NM and B2B connectivity between LARA/NM.
- 92%
Late
30/04/2020
AOM19.2
ASM Management of Real-Time Airspace Data Timescales: Initial operational capability: 01/01/2017 Full operational capability: 31/12/2021
18% Ongoing
Links: B1-FRTO, B1-NOPS | Key Feature: Optimised ATM Network Services -
- 31/12/2021 ASP (By:12/2021)
MIL
The MoD will be using NATS equipment, therefore the MoD will fall in line with the NATS timeline. Future development of functionality is predicated upon the interoperability of LARA and the new ATM system.
- 17%
Ongoing
31/12/2021
NATS Future development of functionality is predicated upon the interoperability of LARA and the new ATM system. - 20% Ongoing
31/12/2021
AOM19.3
Full Rolling ASM/ATFCM Process and ASM Information Sharing Timescales: Initial operational capability: 01/01/2014 Full operational capability: 31/12/2021
20% Ongoing
Links: B0-FRTO, B1-FRTO, B1-NOPS, B2-NOPS | Key Feature: Optimised ATM Network Services -
- 31/12/2021 ASP (By:12/2021)
NATS NATS uses the LARA system for compliance. - 20% Ongoing 31/12/2021
MIL The MoD will be using NATS equipment (NATS uses the LARA system for compliance), therefore the MoD will fall in line with the NATS timeline.
- 20% Ongoing
31/12/2021
AOM19.4
Management of Pre-defined Airspace Configurations Timescales: Initial operational capability: 01/01/2018 Full operational capability: 31/12/2021
5% Ongoing
Links: B1-FRTO, B1-NOPS | Key Feature: Optimised ATM Network Services -
- 31/12/2021 ASP (By:12/2021)
NATS Project L5361 started that will connect LARA to iACM system. - 5% Ongoing
31/12/2021
MIL - - 5% Ongoing 31/12/2021
LSSIP Year 2019 United Kingdom - Level 1 67 Released Issue
AOM21.2
Free Route Airspace Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2021
11% Ongoing
Links: B0-FRTO, B1-FRTO | Key Feature: Advanced Air Traffic Services -
- 31/12/2021 ASP (By:12/2021)
NATS
NATS is in the process of developing a new Flight Data Processing (FDP) system which is essential in order to implement FRA. The first implementation of this FDP entered service at Prestwick Centre (PC) in Summer 2016. Further FDP changes are required to enable FRA capability and are planned be delivered in 2020.
Borealis FRA Implementation (Part 2)
14%
Ongoing
31/12/2021
MIL
The MoD is working with NATS on a phased approach to the implementation of Free Route Airspace. It is vital that tools, procedures and/or agreements are reached in order to ensure that the military can continue to safely carry out OAT activity with certainty and without the need for excessive coordination.
- 8%
Ongoing
31/12/2021
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGBB - Birmingham Airport
- 31/12/2018 REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- 100% Completed
31/01/2013
ASP (By:12/2011) Birmingham Airport Limited (BAL)
MLAT and SMR systems installed and working however, full entry to service cannot commence until the supporting Data Fusion is functioning, which is now anticipated towards the end of 2018.
- 100%
Completed
31/10/2018
APO (By:12/2010) Birmingham Airport Limited (BAL)
Birmingham Airport has installed an A-SMGCS system in 2017. The system is an Avibit System composed of a new surface movement radar and Multi Lateration system.
- 100%
Completed
31/12/2018
LSSIP Year 2019 United Kingdom - Level 1 68 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
63% Late
Links: B0-SURF | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
- 30/09/2020 REG (By:12/2010)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it. Manchester does not presently have A-SMGCS. They have SMR (supported by RIMCAS) with primary returns that can be labelled but the labelling is not totally reliable. Manchester is aware that they need to have A-SMGCS fully operational and effective by 2021.
- 100%
Completed
31/01/2013
ASP (By:12/2011)
NATS
Manchester currently operates a Surface Movement Radar with Runway Incursion Monitoring and Conflict Alert System (RIMCAS) for runway safety protection and guidance in Low Visibility Operations. A project for A-SMGCS Level 1 commenced in 2017 and is expected to be delivered by May 2020.
- 40%
Late
30/09/2020
APO (By:12/2010)
MANCHESTER Airport
Manchester currently operates Surface Movement Radar with Runway Incursion Monitoring and Conflict Alert System (RIMCAS) for runway safety protection and guidance in Low Visibility Operations. A project for A-SMGCS Level 1 has commenced in 2017 and is expected to be delivered by May 2020
- 50%
Late
30/09/2020
LSSIP Year 2019 United Kingdom - Level 1 69 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGGD - Bristol Airport
(Outside Applicability Area) Bristol has no plans to implement A-SMGCS due to current level of ATM and vehicular movements and satisfactory procedures for managing those movements being in place. The UK regulatory system makes provision for the approval of such equipment and systems as and when an airport operator considers they are required.
-
REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- % Not
Applicable -
ASP (By:12/2011)
NATS
Bristol has no plans to implement A-SMGCS due to current level of ATM and vehicular movements and satisfactory procedures for managing those movements being in place. The UK regulatory system makes provision for the approval of such equipment and systems as and when an airport operator considers they are required.
- %
Not Applicable
-
APO (By:12/2010)
BRISTOL Airport
Bristol has no plans to implement A-SMGCS due to current level of ATM and vehicular movements and satisfactory procedures for managing those movements being in place. The UK regulatory system makes provision for the approval of such equipment and systems as and when an airport operator considers they are required.
- %
Not Applicable
-
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGGW - London Luton Airport (Outside Applicability Area)
- - REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- % Not
Applicable -
ASP (By:12/2011)
NATS
No plans to install A-SMGCS at Luton. The A-SMGCS will not be implemented due to negative outcome of a cost benefit analysis ratio against the current and recently installed SMR.
- %
Not Applicable
-
APO (By:12/2010)
LONDON-LUTON Airport
There are currently no plans to install A-SMGCS at Luton. At this stage A-SMGCS will not be implemented due to negative outcome of a cost benefit analysis ratio against the current and recently installed SMR though this situation remains under constant review.
- %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 70 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
- 31/01/2013 REG (By:12/2010)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it. A-SMGCS is not mandated by any European Regulation. Community Specifications exist for Levels 1 and 2 but these ETSI standards do not link into any Implementing Rule, they act just as means to demonstrate compliance with essential requirements. CAP670 SUR Section 09 contains specific requirements for A-SMGCS.
- 100%
Completed
31/01/2013
ASP (By:12/2011)
NATS Completed when NATS provided ATS at Gatwick Airport. - 100% Completed 31/07/2007
APO (By:12/2010) GATWICK Airport Gatwick Airport has a fully implemented A-SMGCS. - 100% Completed
31/07/2008
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGLC - London City Airport
(Outside Applicability Area) - -
REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- % Not
Applicable -
ASP (By:12/2011)
NATS Not currently installed. There are no firm plans, but will be considered as part of future airfield development. - %
Not Applicable
- APO (By:12/2010)
LONDON-CITY Airport
London City does not use Advanced Surface Movement Guidance and Control systems Level 1. This is due to the visibility minima enforced.
- % Not
Applicable -
LSSIP Year 2019 United Kingdom - Level 1 71 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 17/07/2019 REG (By:12/2010)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it. A-SMGCS is not mandated by any European Regulation. Community Specifications exist for Levels 1 and 2 but these ETSI standards do not link into any Implementing Rule, they act just as means to demonstrate compliance with essential requirements. CAP670 SUR Section 09 contains specific requirements for A-SMGCS.
- 100%
Completed
31/01/2013
ASP (By:12/2011)
NATS NATS utilises A-SMGCS Level 1 at Heathrow within the limitations as they currently exist. - 100% Completed
31/12/2002 APO (By:12/2010) HEATHROW Airport
The new ASMGCS was transitioned into full operational service in July 2019.
ASMGCS Level 1 & 2
100% Completed 17/07/2019
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGNT - Newcastle Airport
(Outside Applicability Area) - -
REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- % Not
Applicable -
ASP (By:12/2011)
NEWCASTLE Airport
ATC utilise a non-cooperative TERMA Scasta SMR system. An ERA Multilateration system was installed during 2013.
- % Not
Applicable -
APO (By:12/2010)
NEWCASTLE Airport
Current non-cooperative SMR has been in operational service since 2000. - %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 72 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGPF - Glasgow Airport
(Outside Applicability Area) - -
REG (By:12/2010)
CAA The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it.
- % Not
Applicable -
ASP (By:12/2011)
NATS There are no plans to implement A-SMGCS Level 1 at Glasgow Airport. - %
Not Applicable
- APO (By:12/2010)
GLASGOW Airport
There are no plans to implement A-SMGCS Level 1 at Glasgow Airport. - %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 73 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGPH - Edinburgh Airport
- 31/12/2015 REG (By:12/2010)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it. A-SMGCS is not mandated by any European Regulation. Community Specifications exist for Levels 1 and 2 but these ETSI standards do not link into any Implementing Rule, they act just as means to demonstrate compliance with essential requirements. CAP670 SUR Section 09 contains specific requirements for A-SMGCS.
- 100%
Completed
31/01/2013
ASP (By:12/2011)
NATS
Some aspects of A-SMGCS have been installed at Edinburgh Airport including a new SMR which was commissioned into operational service at Edinburgh Airport during 2014. The airport operator has examined the business benefit of investing in other aspects of A-SMGCS, including vehicle transponders but has concluded that the cost/benefit is insufficiently positive; therefore no further aspects of A-SMGCS are anticipated to be installed.
- 100%
Completed
31/12/2015
APO (By:12/2010)
EDINBURGH Airport
A-SMGCS Installed at Edinburgh Airport. A new SMR was installed and commissioned into operational service at Edinburgh Airport during 2014. Edinburgh Airport Limited (EAL) evaluated the business benefits of installing vehicle transponders and as an outcome of this evaluation will not be installing transponders on airfield vehicles.
- 100%
Completed
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 74 Released Issue
AOP04.1
Advanced Surface Movement Guidance and Control System A-SMGCS Surveillance (former Level 1) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2011
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
- 31/12/2017 REG (By:12/2010)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an aerodrome operator chooses to implement it. A-SMGCS is not mandated by any European Regulation. Community Specifications exist for Levels 1 and 2 but these ETSI standards do not link into any Implementing Rule, they act just as means to demonstrate compliance with essential requirements. CAP670 SUR Section 09 contains specific requirements for A-SMGCS.
- 100%
Completed
31/01/2013
ASP (By:12/2011)
NATS NATS introduced A-SMGCS Level 1 at Stansted in December 2010. - 100% Completed
31/12/2010 APO (By:12/2010)
STANSTED Airport
Stansted has purchased vehicle transponders and trained vehicle drivers. Vehicles are equipped with transponders and in operation. No issues or additional safety concerns reported.
- 100%
Completed
31/12/2017
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGBB - Birmingham Airport
- 31/12/2018 ASP (By:12/2017) Birmingham Airport Limited (BAL)
Birmingham Airport is working towards installation of an A-SMGCS system by Q4, 2018. - 100%
Completed
31/12/2018
APO (By:12/2017) Birmingham Airport Limited (BAL)
Birmingham Airport is working towards installation of an A-SMGCS RMCA equipment by the end of FY 2018/19 - 100%
Completed
31/12/2018
LSSIP Year 2019 United Kingdom - Level 1 75 Released Issue
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
25% Late
Links: B0-SURF | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
- 30/09/2020 ASP (By:12/2017)
NATS
Manchester currently operates a Surface Movement Radar with Runway Incursion Monitoring and Conflict Alert System (RIMCAS) for runway safety protection and guidance in Low Visibility Operations. RMCA will be achieved with ASMGCS plus RIMCAS.
- 20%
Late
30/09/2020
APO (By:12/2017)
MANCHESTER Airport
Manchester currently operates a Surface Movement Radar with Runway Incursion Monitoring and Conflict Alert System (RIMCAS) for runway safety protection and guidance in Low Visibility Operations. RMCA will be achieved with ASMGCS plus RIMCAS.
- 40%
Late
30/09/2020
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGGD - Bristol Airport
(Outside Applicability Area) - -
ASP (By:12/2017)
NATS
Bristol has no immediate plans to implement this system. The UK regulatory system makes provision for the approval of such equipment and systems when an Aerodrome operator considers they are required. NATS will make tentative provision for this within its equipment replacement program in order to be prepared should this situation change.
- %
Not Applicable
-
APO (By:12/2017)
BRISTOL Airport
Although currently planned within the ANSP equipment replacement program, Bristol has no immediate plans to implement this system. The UK regulatory system makes provision for the approval of such equipment and systems when an Aerodrome operator considers they are required.
- %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 76 Released Issue
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGGW - London Luton Airport (Outside Applicability Area)
- - ASP (By:12/2017)
NATS
A-SMGCS is being reviewed as part of A-CDM implementation. However, there is an SMR system in place, which includes RIMCAS functionality.
- %
Not Applicable
-
APO (By:12/2017) LONDON-LUTON Airport
A-SMGCS is being reviewed as part of A-CDM implementation. However, there is a SMR system in place, which includes RIMCAS functionality.
- % Not
Applicable -
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
- 31/07/2008 ASP (By:12/2017)
NATS Completed when NATS provided ATS at Gatwick Airport. - 100% Completed 31/07/2007
APO (By:12/2017) GATWICK Airport Installed at Gatwick. - 100% Completed
31/07/2008
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGLC - London City Airport
(Outside Applicability Area) - -
ASP (By:12/2017)
NATS Not currently installed. There are no firm plans, but will be considered as part of future airfield development. - %
Not Applicable
- APO (By:12/2017)
LONDON-CITY Airport
London City does not implement an A-SMGCS Level 2 due to the unusually high operating minima. Visual contact is required by ATC for all aircraft and vehicles using the manoeuvring area at all times.
- %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 77 Released Issue
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 17/07/2019 ASP (By:12/2017)
NATS NATS utilises A-SMGCS Level 2 at Heathrow. - 100% Completed 31/12/2002
APO (By:12/2017) HEATHROW Airport
The new ASMGCS was transitioned into full operational service in July 2019.
ASMGCS Level 1 & 2
100% Completed 17/07/2019
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGNT - Newcastle Airport
(Outside Applicability Area) - -
ASP (By:12/2017)
NEWCASTLE Airport
Multilateration system was installed during 2013. This provides active information on all aircraft movements and the identity of vehicles on the manoeuvring area.
- % Not
Applicable -
APO (By:12/2017)
NEWCASTLE Airport
Non-cooperative SMR, including RIMCAS, in service since 2000. A multilateration system was installed in 2013, with some vehicles being equipped with Squibs in due course.
- %
Not Applicable
-
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: - not applicable -
% Not Applicable
Links: B0-SURF | Key Feature: High Performing Airport Operations EGPF - Glasgow Airport
(Outside Applicability Area) - -
ASP (By:12/2017)
NATS Further progress is subject to a business case by Glasgow Airport Limited (GLA). - %
Not Applicable
- APO (By:12/2017)
GLASGOW Airport No plans to install A-SMGCS at Glasgow Airport. - %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 78 Released Issue
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGPH - Edinburgh Airport
-- 31/12/2015 ASP (By:12/2017)
NATS
Implementation of A-SMGCS Level 2 is complete at Edinburgh Airport. Edinburgh Airport Limited (EAL) has evaluated the business benefits of provision of in-vehicle transponders in relevant airside vehicles but has concluded that the cost/benefit of doing so was not strong enough to justify its introduction.
- 100%
Completed
31/12/2011
APO (By:12/2017)
EDINBURGH Airport
Air Nova 9000 was installed in 2005; augmented by RIMCAS safety alerting system. A project to install a new SMR (to also include the provision of vehicle transponder interrogation facility and updated SMR Displays in the ATC Control Tower) was completed during Q4 2014. As part of the new SMR project, there are updated SMR Displays in the ATC Control Tower and provision for vehicle transponder interrogation. Following evaluation EAL have decided not to install vehicle transponders.
- 100%
Completed
31/12/2015
AOP04.2
Advanced Surface Movement Guidance and Control System (A-SMGCS) Runway Monitoring and Conflict Alerting (RMCA) (former Level 2) Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2017
100% Completed
Links: B0-SURF | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
- 31/12/2017 ASP (By:12/2017)
NATS A-SMGCS has been installed at Stansted. - 100% Completed 31/12/2010
APO (By:12/2017)
STANSTED Airport
A-SMGCS has been installed at Stansted; however, there has been some alterations made to the system and testing to the new vehicle transponders will commence mid 2017, with completion anticipated end of 2017.
- 100%
Completed
31/12/2017
LSSIP Year 2019 United Kingdom - Level 1 79 Released Issue
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
17% Late
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGBB - Birmingham Airport
Currently development of ACDM at Birmingham Airport is on hold 31/12/2020 ASP (By:12/2016)
Birmingham Airport Limited (BAL)
The introduction of A-CDM will follow the now delayed introduction of Electronic Flight Progress Strips (EFPS) which is planned for Spring 2017. Problems with the introduction of EFPS in Spring 2017 have resulted in a further delay with the expected introduction of EFPS now planned for February 2018.
- 17%
Late
31/12/2020
APO (By:12/2016) Birmingham Airport Limited (BAL)
- - 17%
Late
31/12/2020
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
39% Late
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
-- 31/12/2020 ASP (By:12/2016)
NATS
Local implementation of CDM was deployed in March 2018. This facilitates the use of most CDM milestones with the exception of Target Start Approval Time (TSAT). Work commenced in early 2018 to select an A-CDM partner. A contract was signed in August 2018, with work commencing in September 2018. The solution includes a new A-CDM HMI plus a Pre-Departure Sequencer tool with full B2B connectivity.
- 42%
Late
31/12/2020
APO (By:12/2016)
MANCHESTER Airport
Local implementation of CDM was deployed in March 2018. This facilitates the use of most CDM milestones with exception of TSAT. Work commenced in early 2018 to select an A-CDM partner; a contact was signed in August with work commencing in Sept 2018. The solution includes a new A-CDM HMI plus pre-departure sequencing tool with full B2B connectivity.
- 37%
Late
31/12/2020
LSSIP Year 2019 United Kingdom - Level 1 80 Released Issue
AOP05 Airport Collaborative Decision Making (A-CDM) Timescales: - not applicable -
% Not Applicable
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGGD - Bristol Airport
(Outside Applicability Area) - -
ASP (By:12/2016)
NATS
Although information gathering and sharing is common practice at Bristol, these are not formally aligned to A-CDM guidance. No formal agreements are in place to share certain information. NATS reviewed the full requirements of CDM during 2012, in concert with the airport operator who has invited and received CDM presentations from Eurocontrol. It was anticipated that A-CDM would be implemented early 2013; however, Bristol Airport can see no capacity, performance or cost benefit to fully applying CDM.
- %
Not Applicable
-
APO (By:12/2016)
BRISTOL Airport
Although information gathering and sharing is common practice at Bristol the information gathered and the sharing techniques are not formally aligned to A-CDM guidance. No formal agreements are in place to share certain information. It was anticipated that A-CDM would be implemented early 2013. Having reviewed the full requirements of CDM during 2012, with our ANSP and invited and received CDM presentations from Eurocontrol, Bristol Airport can see no capacity, performance or cost benefit to fully applying CDM.
- %
Not Applicable
-
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
10% Late
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGGW - London Luton Airport
Priority project is to replace the existing AODB/FRMS/FIDS and Billing system due to be completed by the end of October 2020 before any consideration of ACDM provision. 31/12/2022
ASP (By:12/2016)
NATS
A-CDM is not currently in place and implementation is now planned for no earlier than 2021. London Luton Airport is currently sending DPI messages to the Network Manager Operations Centre (NMOC) via our ATM system. A-CDM/Advanced towers is an objective however there is no firm date for implementation.
- 2%
Late
31/12/2021
APO (By:12/2016)
LONDON-LUTON Airport
London Luton Airport is currently sending DPI messages to the NMOC via our ATM system. A-CDM/Advanced Towers is an objective however there is no firm date for implementation. Priority project is to replace the existing AODB/FRMS/FIDS and Billing system due to be completed by the end of October 2020 before any consideration of ACDM provision.
- 18%
Late
31/12/2022
LSSIP Year 2019 United Kingdom - Level 1 81 Released Issue
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
100% Completed
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
-- 07/11/2014 ASP (By:12/2016)
NATS Completed when NATS provided ATS at Gatwick Airport. - 100% Completed 07/11/2014
APO (By:12/2016)
GATWICK Airport
Gatwick had started A-CDM in 2010, and had originally been due for implementation completion in December 2011. The program has changed for two reasons; Gatwick separation from BAA IT and the introduction of the Airfield Performance Team in January 2011. The Gatwick A-CDM 55 programme was completed in November 2014; includes the use of TSAT calculator and DPI data validation. Since forming the Airfield Performance team Gatwick have decided to broaden their A-CDM 55 program to meet both the Eurocontrol A-CDM network requirements but also better support the Gatwick Airfield Performance targets. The program now includes in addition to Eurocontrol requirement for certification: a) Integration of arrival, departure TSATs, stand allocation; b) Time based separation management tools; c) Sequencing optimiser for departures; d) Turnaround performance monitoring and control tools; e) Replacement AODB and messaging system. The enhanced A-CDM 55 project was launched 1st November 2011 A-CDM network integration and DPI exchanging had been delayed from Q4 2013 to Q1 2014 and was completed 7 November 2014.
- 100%
Completed
07/11/2014
LSSIP Year 2019 United Kingdom - Level 1 82 Released Issue
AOP05 Airport Collaborative Decision Making (A-CDM) Timescales: - not applicable -
% Not Applicable
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGLC - London City Airport
(Outside Applicability Area) Until further clarification is provided on the future plans, this objective is consolidated as Not Applicable. -
ASP (By:12/2016)
NATS
London City Airport has formed a Continuous Improvement Committee who have identified areas within the turnaround process where improvements could be made. Information is a key element to this work, NATS continues to discuss airport requirements and understands that the airport operator is considering elements of CDM which are suitable for the airport operation.
- %
Not Applicable
-
APO (By:12/2016)
LONDON-CITY Airport
As the Airside operation at London City is not complex due to its topographical structure a complex CDM process is not required. A full CDM system will therefore not be implemented, although London City will be introducing elements of CDM to improve operational effectiveness.
- %
Not Applicable
-
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
100% Completed
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
-- 30/11/2015 ASP (By:12/2016)
NATS
CDM is in place at Heathrow and is fully operational in all weather conditions. NATS is working closely with airport owner and selected airline operators to progress this further.
- 100%
Completed
30/06/2015
APO (By:12/2016)
HEATHROW Airport
A-CDM was implemented at Heathrow during 2012. Local implementation was closely followed by full implementation at the end of May 2012. In July 2012 a full reversion took place and Heathrow remained disconnected from the network until July 2013 when the airport was again fully implemented.
- 100%
Completed
30/11/2015
LSSIP Year 2019 United Kingdom - Level 1 83 Released Issue
AOP05 Airport Collaborative Decision Making (A-CDM) Timescales: - not applicable -
% Not Applicable
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGNT - Newcastle Airport
(Outside Applicability Area) - -
ASP (By:12/2016)
NEWCASTLE Airport
There are no plans to implement A-CDM at Newcastle Airport. - %
Not Applicable
- APO (By:12/2016)
NEWCASTLE Airport
Some elements are already in place, but not as a result of working towards A-CDM. - %
Not Applicable
-
AOP05 Airport Collaborative Decision Making (A-CDM) Timescales: - not applicable -
% Not Applicable
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGPF - Glasgow Airport
(Outside Applicability Area) - -
ASP (By:12/2016)
NATS Glasgow Airport have updated EFPS to enable DPI messaging, further changes will be implemented as required by airport operator.
- % Not
Applicable -
APO (By:12/2016)
GLASGOW Airport
Glasgow currently has no plan at present to implement A-CDM. - %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 84 Released Issue
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
8% Not yet planned
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGPH - Edinburgh Airport
-Edinburgh Airport has not yet a defined or approved implementation plan or budget for implementation of A-CDM. Edinburgh Airport is supportive of the principles and will be implementing actions were there not a cost barrier to implementation. Continuous improvement strategy ado pts principals of A-CDM with some significant progress made during 2017, as described throughout.
-
ASP (By:12/2016)
Air Navigation Solutions Ltd.
Edinburgh Airport has not yet a defined or approved implementation plan or budget for implementation of A-CDM. Edinburgh Airport is supportive of the principles and will be implementing actions were there not a cost barrier to implementation. Continuous improvement strategy adopts principals of A-CDM with some significant progress made during 2017, as described throughout.
- 0%
Not yet planned
-
APO (By:12/2016)
EDINBURGH Airport
Edinburgh Airport has not yet a defined or approved implementation plan or budget for implementation of A-CDM. Edinburgh Airport is supportive of the principles and will be implementing actions were there not a cost barrier to implementation. Performance manager and Quarter back roles are now embedded in the operation and providing regular performance related reports. Monthly governance meeting in place between ANSP and Edinburgh Airport.
- 17%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 85 Released Issue
AOP05
Airport Collaborative Decision Making (A-CDM) Timescales: Initial operational capability: 01/01/2004 Full operational capability: 31/12/2016
28% Late
Links: B0-ACDM, B0-RSEQ | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
- 31/12/2020 ASP (By:12/2016)
NATS
Stansted Airport continues to evaluate A-CDM and subject to cost analysis benefit will implement elements. The plan to deliver local airport procedures was developed and a cost benefit analysis is being undertaken to consider implementation ahead of a 2021 time-scale [PCP]. NATS and MAG have formed a ten year partnership on these items as part of their on-going contractual arrangements. INEA funding secured. 6th Feb 2017 is the start of the ACDM project for the airport. End date is as scheduled. Expecting Sept 2018 for the procurement of an A-CDM platform to be completed. ACDM measurement is not being undertaken at this time. Variable taxi time and pre departure sequencing has not been implemented. ACDM tender process is completed, T-system joint venture with ATRiCS data 1st Jan 2021 ‘live target date’.
- 27%
Late
31/12/2020
APO (By:12/2016)
STANSTED Airport
STN has been awarded with INEA funding (CEF 2016 Call). Supplier for A-CDM Information Sharing Platform has been selected after OJEU procurement process. Date for full A-CDM compliance remains the start of 2021.
- 30%
Late
31/12/2020
AOP10
Time-Based Separation Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2023
0% Planned
Links: B1-RSEQ, B2-WAKE | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
- 31/12/2023 REG (By:12/2023)
CAA
TBS including implementation of TBS procedures and training is planned to be achieved by the projected implementation date of 31 Dec 2023. Deployment will be agreed with Manchester Airport.
- 0%
Planned
31/12/2023
ASP (By:12/2023)
NATS
TBS including implementation of TBS procedures and training will be achieved by the projected implementation date of 31 Dec 2023. Deployment will be agreed with Manchester Airport.
- 0%
Planned
31/12/2023
LSSIP Year 2019 United Kingdom - Level 1 86 Released Issue
AOP10
Time-Based Separation Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2023
1% Ongoing
Links: B1-RSEQ, B2-WAKE | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
- 31/12/2023 REG (By:12/2023)
CAA
Gatwick have not notified commencement of TBS planning. However, it is known that SESAR TBS is not finalised. UK airports have until 2023 to implement TBS aligned with the PCP regulation.
- 0%
Not yet planned
-
ASP (By:12/2023)
Gatwick Air Navigation Solutions Ltd ANSP
Work is yet to commence on a TBS support tool appropriate for Gatwick. Air Navigation Solutions (ANS) acknowledge the initiative and it is held within a joint project deck between GAL and ANS. Work on integration of AMAN and airport CDM systems has commenced.
- 2%
Ongoing
31/12/2023
AOP10
Time-Based Separation Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2023
100% Completed
Links: B1-RSEQ, B2-WAKE | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 31/12/2015 REG (By:12/2023)
CAA
TBS at Heathrow was implemented in 2015. The Heathrow AIP entry was updated to notify implementation. CAA has oversight of the implementation process i.a.w Regulation 1034/2011. eTBS (enhanced TBS) project nearing completion and expected to go live by the end of February 2018.
- 100%
Completed
31/12/2015
ASP (By:12/2023)
NATS
TBS procedures are now in operation at London Heathrow Airport. Approach and tower systems have been adapted and integrated with the new TBS tools; these adaptions have successfully completed testing and operational trials and are now in full operation.
- 100%
Completed
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 87 Released Issue
AOP11
Initial Airport Operations Plan Timescales: Initial Operational Capability: 01/01/2015 Full Operational Capability: 31/12/2021
11% Ongoing
Links: B1-ACDM | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
Project has commenced to deploy an AOP. 31/12/2020 ASP (By:12/2021)
NATS Project has commenced to deploy an AOP. Scoping and development work with peer EU airports for common solution and procedures has been agreed.
- 10% Ongoing
31/12/2020
APO (By:12/2021)
MANCHESTER Airport
Project has commenced to deploy an AOP. Scoping and development work with peer EU airports for common solutions and procedures has been agreed.
- 12%
Ongoing
31/12/2020
AOP11
Initial Airport Operations Plan Timescales: Initial Operational Capability: 01/01/2015 Full Operational Capability: 31/12/2021
100% Completed
Links: B1-ACDM | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
- 31/12/2016 ASP (By:12/2021)
Gatwick Air Navigation Solutions Ltd ANSP
Since ANS took over as ANSP, cooperation with GAL has enabled ANS to support the Airports extant plan. As ANS was not provided with any assistance by the outgoing ANSP the detail of the airport plan has been largely accepted in line with the agreed business plan and provided the necessary assurance is in place. This process will allow the development of a mature ANSP specific plan in years 1-3 of the term as ANSP. The contract agreed with GAL requires a defined development path and includes all of the plan elements.
- 100%
Completed
31/12/2016
APO (By:12/2021) GATWICK Airport An AOP was Completed by Gatwick Airport during 2016. - 100% Completed
31/05/2016
AOP11
Initial Airport Operations Plan Timescales: Initial Operational Capability: 01/01/2015 Full Operational Capability: 31/12/2021
100% Completed
Links: B1-ACDM | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 31/03/2018 ASP (By:12/2021)
NATS AOP went live at Heathrow in late 2018. It is now the primary conduit for all former A-CDM activities and pre-tactical airport planning.
- 100% Completed
31/03/2018
APO (By:12/2021)
HEATHROW Airport
AOP was rolled out to external users on 2nd August and is now fully operational. Further releases are planned to increase functionality
Airport Operating Plan (AOP)
100% Completed
31/03/2018
LSSIP Year 2019 United Kingdom - Level 1 88 Released Issue
AOP11 Initial Airport Operations Plan Timescales: - not applicable -
% Not Applicable
Links: B1-ACDM | Key Feature: High Performing Airport Operations EGPF - Glasgow Airport
(Outside Applicability Area) - -
ASP (By:12/2021)
NATS
On review against peer airports, this objective is now deemed N/A to Glasgow Airport. That said, the core requirements of the AOP are already in place and laid down in the Aerodrome Manual, AIP and airline and Ground Handling Agent agreements and licences.
- %
Not Applicable
-
APO (By:12/2021)
GLASGOW Airport
On review against peer airports, this objective is now deemed N/A to Glasgow Airport. The core requirements of the AOP are already in place and laid down in the Aerodrome Manual, AIP and airline and Ground Handling Agent agreements and licences.
- %
Not Applicable
-
AOP11
Initial Airport Operations Plan Timescales: Initial Operational Capability: 01/01/2015 Full Operational Capability: 31/12/2021
3% Ongoing
Links: B1-ACDM | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
Ongoing – successful in securing EU funding via CEF 2017 Call. Some elements are currently available through the AIP and the capacity declaration through ACL. Currently exploring feasibility of setting up an Airports Operations Centre (APOC).
31/12/2021
ASP (By:12/2021)
NATS The AOP information under the responsibility of Stansted ANSP (NATS) is provided and maintained, ensuring the appropriate quality.
- 10% Ongoing
31/12/2021
APO (By:12/2021)
STANSTED Airport
Ongoing – successful in securing EU funding via CEF 2017 Call. Some elements are currently available through the AIP and the capacity declaration through ACL. Currently exploring feasibility of setting up an Airports Operations Centre (APOC).
- 0%
Planned
31/12/2021
LSSIP Year 2019 United Kingdom - Level 1 89 Released Issue
AOP12
Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2020
33% Ongoing
Links: B2-SURF | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
NATS have installed Basic Airport Safety Nets, further deployment not possible until after A-SGMCS Level 2. Manchester will train staff as the objective progresses.
31/12/2020
ASP (By:12/2020)
NATS
Basic Airport Safety Nets are in place through the use of RIMCAS. Further deployment of Airport Safety Nets will not be possible until after implementation of A-SGMCS Level 2 by the end of 2020.
- 40%
Ongoing
31/12/2020
APO (By:12/2020) MANCHESTER Airport
Comprehensive training will be provided for operational staff as the programme develops. - 10% Ongoing
31/12/2020
AOP12
Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2020
100% Completed
Links: B2-SURF | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
- 31/12/2016 ASP (By:12/2020)
Gatwick Air Navigation Solutions Ltd ANSP
EFPS and A-SMGCS have been installed and in use at Gatwick for a number of years. RIMCAS against transponder equipped vehicle with a new Safety Case being completed and with GAL for ongoing review.
- 100%
Completed
31/12/2016
APO (By:12/2020)
GATWICK Airport
All Airside Operations staff undertake airside operations induction training on joining the dept.; Includes Module on ATC and Navigational Systems (A-SMGCS/RIMCAS) Also, in place is an: (a) airside driving package for training and regular refreshing of drivers on the manoeuvring area; (b) annual training for all staff employed to drive specialist snow/ice vehicles on the manoeuvring area; (c) annual competency checks; (d) on-going runway safety awareness training delivered by ANSP to personnel operating on or near the runway.
A-SMGCS upgrade to
provide airport
safety nets and routing & planning functions / Enhanced Departure
Management integrating
airfield surface assets
100%
Completed
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 90 Released Issue
AOP12
Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2020
100% Completed
Links: B2-SURF | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 31/12/2016 ASP (By:12/2020)
NATS This project was closed in 2016 as previously reported via the ASR process. - 100% Completed
31/12/2016 APO (By:12/2020)
HEATHROW Airport
As reported via the STAR reporting tool, the objective for this project (AOP12; Project name/Code in DP2016: Project 100AF2) and as set out under grant agreement 2014-EU-TM-0136-M (IP25) aimed at developing a concept of operation to clarify the Aeronautical Ground Lighting (AGL), field infrastructure component design and architecture requirements for an integrated ASMGCS level 4/5 Surface Manager (SMAN). A holistic options analysis and selection process is being undertaken to assess the functional and safety integrity requirement of the Ground Movement Control System as a system design that is fully congruent and potentially pre-integrated with the ASMGCS 4/5 Surface Manager. Primary Cable specification, distribution and operational architecture is being surveyed to scope design and installation of an airfield-wide GMCS primary cabling matrix to allow floating separation and necessary system integrity for automatic/semi-automatic operation. Existing AGL system architecture is undergoing resilience and communication architecture modification to allow for validation testing of floating separation and seamless operational transition to the new GMCS/SMAN function. Following an initial postponement of the end-date (from December 2015 to March 2019), the project underwent a process of re-scoping in order to ensure compliance with the SGA during the reporting period. All tasks were reported as complete in December 2015 via the ASR process with no further task undertaken in 2016, as the project scope changed at the end of 2015 to the like for like replacement of the AGL Control System, with safeguarding for future expansion.
Airport Safety Nets associated
with A-SMGCS Level 2 -
Preparation for SMAN
100%
Completed
31/12/2016
LSSIP Year 2019 United Kingdom - Level 1 91 Released Issue
AOP12
Improve Runway and Airfield Safety with Conflicting ATC Clearances (CATC) Detection and Conformance Monitoring Alerts for Controllers (CMAC) Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2020
28% Ongoing
Links: B2-SURF | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
The implementation is planned in accordance with PCP time-scales. 31/12/2020 ASP (By:12/2020)
NATS
Vehicle transponders have now been deployed and implemented. ICWPs have been discussed but have still not been defined. Controller training is awaiting system implementation and procedure development. NATS is currently developing an integrated EFS working position design for consideration at operational units such as Stansted.
- 37%
Ongoing
31/12/2020
APO (By:12/2020) STANSTED Airport To be implemented in accordance with PCP time-scales. - 0% Planned
31/12/2020
AOP13
Automated Assistance to Controller for Surface Movement Planning and Routing Timescales: Initial operational capability: 01/01/2016 Full operational capability: 31/12/2023
0% Planned
Links: B1-ACDM, B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations EGCC - Manchester Airport
- 31/12/2023 REG (By:12/2023)
CAA Activity has not started. - 0% Not yet planned
- ASP (By:12/2023)
NATS Currently planned to be part of the ASMGCS roll-out. - 0% Planned 31/12/2023
AOP13
Automated Assistance to Controller for Surface Movement Planning and Routing Timescales: Initial operational capability: 01/01/2016 Full operational capability: 31/12/2023
0% Not yet planned
Links: B1-ACDM, B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
Gatwick ATM development plan has now commenced with joint governance between GAL and ANS. All systems are being reviewed for replacement. -
REG (By:12/2023)
CAA Activity has not started. - 0% Not yet planned
- ASP (By:12/2023) Gatwick Air Navigation Solutions Ltd ANSP
Work has just commenced on the ATS systems upgrade that is required to support this. ANS acknowledge the initiative and it is held within a joint project deck between GAL and ANS.
- 0%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 92 Released Issue
AOP13
Automated Assistance to Controller for Surface Movement Planning and Routing Timescales: Initial operational capability: 01/01/2016 Full operational capability: 31/12/2023
7% Ongoing
Links: B1-ACDM, B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
- 31/12/2023 REG (By:12/2023)
CAA Activity has not started. - 0% Not yet planned
- ASP (By:12/2023)
NATS
Heathrow Airport and NATS are partnering to develop an advanced surface management solution which will transform the tower operation. AGLCS Replacement Project is looking at options to provide automated route function to ATC but this has not substantially progressed since the last update.
- 8%
Ongoing
31/12/2023
AOP13
Automated Assistance to Controller for Surface Movement Planning and Routing Timescales: Initial operational capability: 01/01/2016 Full operational capability: 31/12/2023
0% Not yet planned
Links: B1-ACDM, B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
- - REG (By:12/2023)
CAA Activity has not started. - 0% Not yet planned
- ASP (By:12/2023)
NATS Stansted airport are not progressing with this objective at the moment. - 0%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 93 Released Issue
ATC02.8
Ground-Based Safety Nets Timescales: Initial operational capability: 01/01/2009 Full operational capability: 31/12/2016
100% Completed
Links: B0-SNET, B1-SNET | Key Feature: Advanced Air Traffic Services -
For those not undertaking this, suitable safety nets already exist 31/12/2016 ASP (By:12/2016)
MIL
APW: The Military Authority, military processes and procedures facilitate the safe control of aircraft in close proximity to the ground therefore there is no plan to introduce APW. MSAW: For the Military Authority, there is also no plan to implement; however, they do use radar vector charts, both hardcopy and displayed on the radar display, showing safe minimum altitudes within 40 miles of an aerodrome. Similarly, they have Area Safe Altitude charts for use outside of 40 miles. APM: For the Military Authority, All IFR approaches are already monitored on the Precision Approach Radar (where installed). No plans to change current procedures.
- 100%
Completed
31/01/2009
NATS
En-route (APW): NATS has no business requirement to introduce this capability in a safety net. However, the iTEC FDP system that NATS is rolling out will have the capability of detecting when flight trajectories are planned to penetrate defined restricted areas. En-route (MSAW): Due to a lack of operational requirement for this functionality there are no plans to implement MSAW in UK en-route airspace. En-route (APM): There are no NATS business requirements to deploy APM Level 2. However, the COTS Safety Net Server that NATS is procuring is capable of hosting such a safety net. Airports: Ground based safety net functionality has been implemented at a number of airports across the UK whilst others continue to evaluate the benefits this may bring to their operations. The decision to implement any ground based safety net rests with the airport operator as part of their ongoing investment plans.
- 100%
Completed
31/12/2016
LSSIP Year 2019 United Kingdom - Level 1 94 Released Issue
ATC02.9
Short Term Conflict Alert (STCA) for TMAs Timescales: Initial operational capability: 01/01/2018 Full operational capability: 31/12/2020
100% Completed
Links: B0-SNET, B1-SNET | Key Feature: Advanced Air Traffic Services -
There are areas of the NATS STCA (and the Thales SNS STCA) where alternate hypothesis are used. 31/01/1996
ASP (By:12/2020)
NATS Completed in 1996. - 100% Completed 31/01/1996
ATC07.1
AMAN Tools and Procedures Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2019
10% Late
Links: B0-RSEQ | Key Feature: Advanced Air Traffic Services EGCC - Manchester Airport
AMAN tool for Manchester Airport is planned for implementation by December 2021. Arrival management is part of the NATS Queue Management programme and other airports will be added in line with the PCP timetable.
31/12/2021
ASP (By:12/2019)
NATS
AMAN tool for Manchester Airport is planned for implementation by December 2021, in advance of the PCP deadline. Arrival management is part of the NATS Queue Management programme.
- 10%
Late
31/12/2021
ATC07.1
AMAN Tools and Procedures Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2019
100% Completed
Links: B0-RSEQ | Key Feature: Advanced Air Traffic Services EGKK - London Gatwick Airport
AMAN tool implemented in the London TMA providing automated sequence numbering, stack delay and expected approach time information, initially for Heathrow and Gatwick, arrival management is part of the NATS Queue Management programme and other airports will be added in line with the PCP timetable. Significant development of AMAN has been undertaken since its introduction in 2009 allowing advanced benefits to be realised.
31/01/2009
ASP (By:12/2019)
NATS
AMAN tool implemented in the London TMA providing automated sequence numbering, stack delay and expected approach time information, initially for Heathrow and Gatwick. Arrival management is part of the NATS Queue Management programme.
- 100%
Completed
31/01/2009
LSSIP Year 2019 United Kingdom - Level 1 95 Released Issue
ATC07.1
AMAN Tools and Procedures Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2019
100% Completed
Links: B0-RSEQ | Key Feature: Advanced Air Traffic Services EGLL - London Heathrow Airport
AMAN tool implemented in the London TMA providing automated sequence numbering, stack delay and expected approach time information, initially for Heathrow and Gatwick, arrival management is part of the NATS Queue Management programme and other airports will be added in line with the PCP timetable. Significant development of AMAN has been undertaken since its introduction in 2009 allowing advanced benefits to be realised.
31/01/2009
ASP (By:12/2019)
NATS
AMAN tool implemented in the London TMA providing automated sequence numbering, stack delay and expected approach time information, initially for Heathrow and Gatwick. Arrival management is part of the NATS Queue Management programme.
- 100%
Completed
31/01/2009
ATC07.1
AMAN Tools and Procedures Timescales: Initial operational capability: 01/01/2007 Full operational capability: 31/12/2019
0% Late
Links: B0-RSEQ | Key Feature: Advanced Air Traffic Services EGSS - London Stansted Airport
AMAN tool for London Stansted Airport is planned for implementation by December 2019. Arrival management is part of the NATS Queue Management programme and other airports will be added in line with the PCP timetable.
31/12/2021
ASP (By:12/2019)
NATS
AMAN tool for London Stansted Airport is planned for implementation by December 2021. Arrival management is part of the NATS Queue Management programme and other airports will be added in line with the PCP timetable. Stansted looking to implement XMAN rather than AMAN in the timescale.
- 0%
Late
31/12/2021
LSSIP Year 2019 United Kingdom - Level 1 96 Released Issue
ATC12.1
Automated Support for Conflict Detection, Resolution Support Information and Conformance Monitoring Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2021
47% Late
Links: B1-FRTO | Key Feature: Advanced Air Traffic Services -
- 31/12/2026 ASP (By:12/2021)
NATS
NATS has already implemented the iFACTS system in the Swanwick Area Centre. iTEC is in operational service in Prestwick Centre Upper airspace. Implementation in Lower airspace at Swanwick and Prestwick is planned for 2023. iFACTS/FourSight provide Tactical Tools, with MTCD, conformance monitoring and resolution support to controllers. The iTEC system provides a similar capability for planning activities. Tactical Tools will be fully implemented in early RP4 mainly in Swanwick Lower Airspace. They will be elsewhere by the end of 2023.
- 47%
Late
31/12/2026
ATC15.1
Information Exchange with En-route in Support of AMAN Timescales: Initial operational capability: 01/01/2012 Full operational capability: 31/12/2019
100% Completed
Links: B1-RSEQ | Key Feature: Advanced Air Traffic Services -
-- 31/07/2013 ASP (By:12/2019)
NATS Completed in 2013. - 100% Completed 31/07/2013
ATC15.2
Arrival Management Extended to En-route Airspace Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2023
100% Completed
Links: B1-RSEQ | Key Feature: Advanced Air Traffic Services -
NATS provides extended arrival management (XMAN) for Heathrow only at this time. We are currently working on bringing Gatwick XMAN on-line via a SESAR 2020 project as a trial. 30/04/2015
ASP (By:12/2023)
NATS Completed in 2015. - 100% Completed 30/04/2015
LSSIP Year 2019 United Kingdom - Level 1 97 Released Issue
ATC17
Electronic Dialogue as Automated Assistance to Controller during Coordination and Transfer Timescales: Initial operational capability: 01/01/2013 Full operational capability: 31/12/2018
26% Late
Key Feature: Advanced Air Traffic Services -
- 31/12/2021 ASP (By:12/2018)
NATS ATC Coordination is currently in place with Prestwick Upper and is planned to be extended to Swanwick Upper airspace by 2021, Lower airspace (2023).
ITEC-FDP/CWP
26% Late
31/12/2021
COM10
Migrate from AFTN to AMHS Timescales: Initial operational capability: 01/12/2011 Full operational capability: 31/12/2018
78% Late
Key Feature: Enabling the Aviation Infrastructure -
-- 31/12/2020 ASP (By:12/2018)
MIL
No separate plans for the MoD to have their own systems. The MoD will utilise NATS systems. Therefore, the timescales and dates will fall in line with NATS timings. MoD Capability in Area Radar is provided through NATS. NATS has deployed an AMHS capability and gateway facilities to AFTN. There are no MoD systems planned which make use of extended AMHS functions. MoD Figures match NATS submission as this is a transparent process for MoD with no requirement in the ASP05
- 68%
Late
31/12/2020
NATS
NATS has deployed an AMHS capability and gateway facilities to AFTN. Implementation with almost all partners is complete; NATS has an active project which is working with our AFTN & CIDIN international partners to transition to AMHS, subject to their readiness to implement AMHS.
- 88%
Late
30/06/2020
LSSIP Year 2019 United Kingdom - Level 1 98 Released Issue
COM11.1
Voice over Internet Protocol (VoIP) in En-Route Timescales: Initial operational capability: 01/01/2013 Full operational capability: 31/12/2021
40% Ongoing
Key Feature: Enabling the Aviation Infrastructure -
- 30/04/2021 ASP (By:12/2021)
NATS
NATS plans to have VoIP in use between our centres for ground-ground voice services. NATS will implement VoIP between all our centres and their radio stations for air-ground services.
- 40%
Ongoing
31/12/2020
MIL
At centres where military units utilise NATS equipment to provide an ATS, when NATS replaces the AC VCS & upgrades the TC & PC systems with VoIP compatible systems it is envisaged that these will also provide the Military with VoIP capability. For military airfields, Project MARSHALL is likely to see the introduction of VOIP capability to some, but not all airfields. Whilst hub-and-spoke airfields are likely to require VOIP capability under the MARSHALL model, stand-alone airfields are less-likely to benefit. The project is currently running behind schedule and is suffering from planning, development and roll-out challenges. This provision may be subject to change as the project progresses.
- 40%
Ongoing
30/04/2021
COM11.2
Voice over Internet Protocol (VoIP) in Airport/Terminal Timescales: Initial operational capability: 01/01/2013 Full operational capability: 31/12/2023
15% Ongoing
Key Feature: Enabling the Aviation Infrastructure -
New objective with the split of COM11. The implementation of this objective lies within the business needs of each stakeholder. 31/12/2023
ASP (By:12/2023) Air Navigation Solutions Ltd.
- - 0%
Not yet planned
-
NATS - - 30% Ongoing 31/12/2023
LSSIP Year 2019 United Kingdom - Level 1 99 Released Issue
COM12
New Pan-European Network Service (NewPENS) Timescales: Initial operational capability: 01/01/2018 Full operational capability (33 ANSPs): 31/12/2020
44% Ongoing
Links: B1-SWIM | Key Feature: Enabling the Aviation Infrastructure -
- 31/12/2020 ASP (By:12/2024) Birmingham Airport Limited (BAL)
Birmingham Airport is not participating in the NewPENS programme. - %
Not Applicable
-
Gatwick Air Navigation Solutions Ltd ANSP
- - 0%
Planned
31/12/2020
NATS
NewPENS has been deployed at three NATS sites (Swanwick, Prestwick and Heathrow) under an internal project (L5267 - NewPENS). The migration of services from current PENS to NewPENS has already started and are due to be completed well before May 2020 when the current PENS contract expires. The migration of the following services is in scope of this project: AMHS, CHMI, EAD, NM entry nodes, FMTP, NM Voice and Operational Voice. As of beginning of December 2019, 19 services (out of 55) have been successfully migrated onto NewPENS.
- 88%
Ongoing
31/12/2020
NEWCASTLE Airport Not applicable. No current plans. - %
Not Applicable
- APO (By:12/2024)
BRISTOL Airport - - %
Not Applicable
-
LONDON-CITY Airport - - %
Not Applicable
-
GLASGOW Airport No current plans. - %
Not Applicable
- LONDON-LUTON Airport
No current plans. - % Not
Applicable -
MANCHESTER Airport No current plans. - %
Not Applicable
-
STANSTED Airport No current plans. - %
Not Applicable
-
EDINBURGH Airport - - %
Not Applicable
-
HEATHROW Airport Not applicable and no current plans. - %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 100 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
100% Completed
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGBB - Birmingham Airport
- 31/12/2011 ASP (By:12/2023)
Birmingham Airport Limited (BAL)
CDA achievement rates at Birmingham have increased significantly following an airspace change and the installation of ILS. Communities and other local stakeholders have responded positively to the improved CDA performance.
- 100%
Completed
31/12/2011
APO (By:12/2023) Birmingham Airport Limited (BAL)
CDA is implemented H24 at Birmingham Airport with the exception of military flights and aircraft making use of non-precision approaches.
- 100%
Completed
31/01/2011
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
82% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGCC - Manchester Airport
-- 31/03/2022 ASP (By:12/2023)
NATS
CDO is in practice consistently during night operations at Manchester Airport and when feasible during day time operations. PBN CDO procedures will be implemented as part of the FASI-N Airspace Change in 2022.
- 78%
Ongoing
31/03/2022
APO (By:12/2023)
MANCHESTER Airport
Manchester Airport maximises the use of CDA during night operations. Further study into extending CDA to daytime operations had indicated that local airspace constraints only permit CDA during periods of lower traffic density. A major redesign of the TMA airspace is required in order to permit greater use of 24hr CDA.
- 100%
Completed
31/12/2011
LSSIP Year 2019 United Kingdom - Level 1 101 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
82% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGGD - Bristol Airport
- 31/12/2023 ASP (By:12/2023)
NATS
NATS has previously delivered CDA in a limited way due to airspace constraints but very successfully at some locations particularly in the London TMA. Airspace changes are enabling CDA from higher levels and NATS has led the UK CDO improvement campaign on behalf of Sustainable Aviation. Bristol submitted their 1916 Statement of Need in Autumn 2018 kick-starting the ACP process.
- 78%
Ongoing
31/12/2023
APO (By:12/2023)
BRISTOL Airport
Bristol ANSP supports the implementation CDA procedures at the aerodrome, and monitors this using Flight Profile Monitor. Bristol Airport also monitors CDA performance using the noise and track keeping system.
- 100%
Completed
31/12/2013
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
80% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGGW - London Luton Airport
- 31/07/2023 ASP (By:12/2023)
NATS
CDAs are delivered for the majority of approaches although, depending upon which runway is in use, certain approaches can preclude CDA due to airspace constraints.
- 75%
Ongoing
31/07/2023
APO (By:12/2023) LONDON-LUTON Airport
London Luton Airport measures and monitors CDO performance and feedback is an ongoing practice. - 100%
Completed
31/12/2011
LSSIP Year 2019 United Kingdom - Level 1 102 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
80% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGKK - London Gatwick Airport
-- 31/12/2023 ASP (By:12/2023) Gatwick Air Navigation Solutions Ltd ANSP
- - 75%
Ongoing
31/12/2023
APO (By:12/2023)
GATWICK Airport
Gatwick Airport CDA techniques, monitoring of performance and feedback to the ANSP, implemented pre-2007. Annual Flight Performance Report contains CD0 data and is available to the local community via the London Gatwick Airport website. The London Airspace Management Programme which contained proposals to further increase the scope of CDA remains on hold awaiting further guidance and direction from the CAA.
- 100%
Completed
31/12/2006
ENV01 Continuous Descent Operations (CDO) Timescales: - not applicable -
% Not Applicable
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGLC - London City Airport
(Outside Applicability Area) - -
ASP (By:12/2023)
NATS CDA operations at London City are severely limited by airspace constraints and interactions with other airfield and air traffic flows.
- % Not
Applicable -
APO (By:12/2023)
LONDON-CITY Airport
London City is unable to operate a continuous descent approach technique due to its interaction with Heathrow traffic.
- % Not
Applicable -
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
80% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGLL - London Heathrow Airport
- 31/12/2023 ASP (By:12/2023)
NATS
NATS has implemented CDA at Heathrow, and delivers a module on the techniques associated with its use as part of initial Air Traffic Controller training. KPI in annual contract for delivery of 89% CDA and this has been achieved for the last 3 years.
- 75%
Ongoing
31/12/2023
APO (By:12/2023)
HEATHROW Airport
Heathrow Airport CDA techniques, monitoring of performance and feedback to the ANSP, implemented pre-2007.
- 100% Completed
31/12/2006
LSSIP Year 2019 United Kingdom - Level 1 103 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
100% Completed
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGNT - Newcastle Airport
- 30/04/2019 ASP (By:12/2023) NEWCASTLE Airport
CDAs for both runways are in place and the procedures are used regularly. - 100% Completed
30/04/2019 APO (By:12/2023) NEWCASTLE Airport
CDAs for both runways are in place and the procedures are used regularly. - 100% Completed
31/01/2008
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
82% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGNX - Nottingham East Midlands Airport
-- 31/12/2022 ASP (By:12/2023)
East Midlands International Airport Ltd
East Midlands was one of the first ATC units in the country to develop CDAs and have been in operation since May 2005, operating 24/7 and compliance statistics are very high.
- 78%
Ongoing
31/12/2022
APO (By:12/2023)
East Midlands International Airport Ltd
East Midlands has a very strong commitment to environmental issues and multilateration track monitoring equipment is used to great effect to establish compliance records for individual operators. Statistics are fed to operators on a monthly basis, and the Airport recognises/awards airlines with the best compliance levels, and those achieving airport percentage targets. As this set of SLoAs for East Midlands has been completed for some time an update has not been requested.
- 100%
Completed
31/05/2005
LSSIP Year 2019 United Kingdom - Level 1 104 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
82% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGPF - Glasgow Airport
NATS currently delivers CDA operations at Glasgow Airport though some limitations exist due to terrain. A programme of airspace and navigation improvements combined with a CDA focus group with airlines has led to considerable success; CDO has increased from 62.3 in 2013 to 68.4 in 2015. Glasgow continues to strive to further improve CDO achievement as part of the UK-wide Sustainable Aviation CDO campaign.
31/12/2023
ASP (By:12/2023)
NATS
NATS currently delivers CDA operations at Glasgow Airport though some limitations exist due to terrain. A programme of airspace and navigation improvements combined with a CDA focus group with airlines has led to considerable success; CDO has increased from 62.3 in 2013 to 68.4 in 2015. Glasgow continues to strive to further improve CDO achievement as part of the UK-wide Sustainable Aviation CDO campaign.
- 78%
Ongoing
31/12/2023
APO (By:12/2023)
GLASGOW Airport
In 2015 an improvement was noted in particular for CDAs. We work closely with our ANSP NATS to understand how the airport can improve. Glasgow has some unique terrain on the approach to Runway 23 which makes it more difficult for aircraft to complete a CDA therefore NATS work with the airlines to understand the best CDA profile achievable. A programme of airspace and navigation improvements combined with a CDA focus group with airlines has led to considerable success; CDO has increased from 62.3 in 2013 to 68.4 in 2015. Glasgow continues to strive to further improve CDO achievement as part of the UK-wide Sustainable Aviation CDO campaign.
- 100%
Completed
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 105 Released Issue
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
62% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGPH - Edinburgh Airport
- 31/12/2022 ASP (By:12/2023) Air Navigation Solutions Ltd.
- - 53%
Ongoing
31/12/2022
APO (By:12/2023)
EDINBURGH Airport
CDA (+CCD) techniques are fully in place. ANSP (NATS) staff are trained in requirements/operation and operating airlines are aware of, and are fully committed to, CDA and CCD measures. Reports regarding CDA and CCD performance are provided monthly by NATS and this information is reported to, and discussed with operator's at quarterly Flight Operations and Safety Committee meetings. Such information / reports are also shared with local community groups via our regular airport newsletter.
- 100%
Completed
31/12/2013
ENV01
Continuous Descent Operations (CDO) Timescales: Initial operational capability: 01/07/2007 Full operational capability: 31/12/2023
82% Ongoing
Links: B0-CDO, B1-CDO | Key Feature: Advanced Air Traffic Services EGSS - London Stansted Airport
-- 31/12/2023 ASP (By:12/2023)
NATS
NATS has implemented CDA at a number of UK airports, including Stansted, and delivers a module on the techniques associated with its use as part of initial Air Traffic Controller training.
- 78%
Ongoing
31/12/2023
APO (By:12/2023)
STANSTED Airport
Stansted Airport CDA techniques, monitoring of performance and feedback to the ANSP, implemented pre-2007.
- 100% Completed
31/12/2006
FCM03
Collaborative Flight Planning Timescales: Initial operational capability: 01/01/2000 Full operational capability: 31/12/2017
100% Completed
Links: B0-NOPS | Key Feature: Optimised ATM Network Services -
-- 31/12/2018 ASP (By:12/2017)
NATS
Implementation has been achieved by means of NATS stand-alone systems. Automation will also be achieved upon the iTEC and DP en-route programme; For the Military Authority, IFPLID is utilised in all messages to ETFMS.
- 100%
Completed
31/12/2018
LSSIP Year 2019 United Kingdom - Level 1 106 Released Issue
FCM04.2
Short Term ATFCM Measures (STAM) - Phase 2 Timescales: Initial operational capability: 01/11/2017 Full operational capability: 31/12/2021
100% Completed
Key Feature: Optimised ATM Network Services -
- 30/12/2018 ASP (By:12/2021)
NATS
This is fully completed. UK FMP has been utilising STAM measures for a number of years. STAM measures are currently used in our operation to resolve hotspots in preference to the application of ATFCM regulations. STAM Procedures were developed and deployed, the local STAM system was validated and is now in operational use. STAM 2 procedures are also in operational use and all staff are fully trained and competent in their application.
- 100%
Completed
30/12/2018
FCM05
Interactive Rolling NOP Timescales: Initial operational capability: 01/09/2013 Full operational capability: 31/12/2021
78% Ongoing
Links: B1-ACDM, B1-NOPS | Key Feature: Optimised ATM Network Services -
-- 31/12/2021 ASP (By:12/2021)
NATS
Interactive NOP (now Initial Network plan (INP)) has now been introduced by the NM during Q4 2017 and Q1 2018. NATS has now developed the required procedures and carried out the relevant training.
- 100%
Completed
31/12/2018
APO (By:12/2021)
UK Level 3 Coordinated Airports
Airport Coordination Ltd (ACL) sends slot information for the UKs Level 3 Coordinated Airports to the EUACAs common database. This information is then sent daily to DDR. The integration of the AOP with the NOP is in progress and anticipated meeting the target date.
- 55%
Ongoing
31/12/2021
FCM06
Traffic Complexity Assessment Timescales: Initial operational capability: 01/01/2015 Full operational capability: 31/12/2021
100% Completed
Links: B1-NOPS | Key Feature: Optimised ATM Network Services -
- 30/06/2000 ASP (By:12/2021)
NATS
NATS utilises its Traffic Load prediction Device (TLPD) tool to monitor sector demand and evaluate traffic complexity. NATS has upgraded its current tools in order to future proof its operation.
- 100%
Completed
30/06/2000
LSSIP Year 2019 United Kingdom - Level 1 107 Released Issue
FCM08
Extended Flight Plan Timescales: Initial operational capability: 01/01/2016 Full operational capability: 31/12/2021
0% Not yet planned
Links: B1-FICE | Key Feature: Enabling the Aviation Infrastructure -
- - ASP (By:12/2021)
NATS
The introduction and project for this initiative within the European Region is being managed by EUROCONTROL, the activity is at a very early stage and all aspects of Flight Plan and Flight Data Evolution is captured under the recently established NM FPFDE Strategic Project which NATS and UK CAA are fully engaged in.
- 0%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 108 Released Issue
INF07
Electronic Terrain and Obstacle Data (eTOD) Timescales: Initial operational capability: 01/11/2014 Full operational capability: 31/05/2018
31% Late
Key Feature: Enabling the Aviation Infrastructure -
The UK is working towards meeting the requirements for TOD via an overarching AIM Project Plan. 31/12/2023
REG (By:05/2018)
CAA
As part of the ADQ IR Project, in December 2018 UK CAA published CAP 1732 Aerodrome Survey Guidance for aerodrome operators and other data originators (including contracted activities) to support compliance with Regulation EU 139/2014, EU 73/2010 and ICAO Annex 4, Annex 11 and Annex 14. CAP 1732 introduces specific UK guidance on data collection surfaces (eTOD PLUS) which was created on the basis of data collection areas and surfaces defined by ICAO Annex 15 and EU 139/2014 as Electronic Terrain and Obstacle Data Areas (eTOD) 1-4. CAP 1732 addresses all elements of the National TOD Policy. Additional information will also be provided in UK AIP (GEN 3.1.6, GEN 1.7 and ENR 5.4).
- 92%
Late
31/12/2023
MIL See CAA's comment. Now due Dec 2023 - 13% Late
31/12/2023 ASP (By:05/2018)
MIL
A plan will be developed once the national TOD policy and implementation programme has been initiated. It is not therefore expected that the compliance against this objective will be achieved until 31 December 2020.
- 0%
Late
31/12/2023
NATS
The CAA have published CAP 1732 as the UK guidance for Obstacles and Terrain Data. NATS AIS will only be responsible for management and provision of Area 1,2,3,4 Obstacles and 2,3,4 Terrain (no collection responsibility) and as part of RP3 have provided a roadmap with identified requirements and adjustments to be made. The implementation for provision is targeted Q1 2021.
- 40%
Late
31/03/2021
APO (By:05/2018)
All UK Airports
Plans are in place to ensure data is compliant apart from specific aerodrome related information, where the completion date is expected to be beyond that indicated above, but is within the timeframe of Aerodromes resurvey required to support Instrument Flight Procedure design review periods, as required by ICAO Doc 8126. A statement of compliance will be provided to the NSA at the appropriate time.
- 0%
Late
30/09/2020
LSSIP Year 2019 United Kingdom - Level 1 109 Released Issue
INF08.1
Information Exchanges using the SWIM Yellow TI Profile Timescales: Initial operational capability: 01/01/2018 Full operational capability: 31/12/2024
2% Ongoing
Links: B1-DATM, B1-SWIM | Key Feature: Enabling the Aviation Infrastructure -
- 31/12/2024 ASP (By:12/2024) Gatwick Air Navigation Solutions Ltd ANSP
- - %
Not yet planned
-
NEWCASTLE Airport - - %
Not yet planned
- Birmingham Airport Limited (BAL)
- - 3%
Ongoing
31/12/2024
NATS
Projects are underway at NATS which involve the internal exchange of data encoded in the exchange models to be used in SWIM, specifically AIXM, FIXM and IWXXM. To support these exchanges, there are also projects involving the provision of integration layers and security infrastructure, including PKI, which supports a significant proportion of the SWIM Yellow Profile specification. To date, no projects have been kicked off to implement a fully conformant exchange.
- 0%
Planned
31/12/2024
MIL (By:12/2024)
MIL Project not started WEF Dec 2018. - % Not yet planned
- APO (By:12/2024)
BRISTOL Airport - - %
Not yet planned
-
LONDON-CITY Airport - - %
Not yet planned
-
GLASGOW Airport - - %
Not yet planned
-
MANCHESTER Airport - - %
Not yet planned
-
LONDON-LUTON Airport
We are not mandated under PCP therefore we have not begun to look at the implementation of information exchange as yet. We are undergoing wide changes in our IT department at the moment and therefore this strategy will be reviewed again as soon as is practicable.
- %
Not yet planned
-
EDINBURGH Airport - - %
Not yet planned
-
STANSTED Airport - - %
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 110 Released Issue
HEATHROW Airport
Heathrow received the certificate for the initial SWIM infrastructure mid-April 2018 from EUROCONTROL. It is therefore expected that we will be able to use the iSWIM (Network Manager B2B) messaging system to exchange messages for the AOP/NOP integration for the TTA VLD trails until their conclusion. The AFTN network is also being used for messaging. To explain further, we have implemented B2B web services to Eurocontrol for the pDPI / TTA / API messages and have successfully used the certificates provided by Eurocontrol NM as mentioned above. These are the de-facto Yellow SWIM components. We manage the certificates and loading onto the correct servers. We believe therefore that technically we comply with the Yellow SWIM profile principles, but have not yet migrated the other “Classic” DPIs onto the B2B service since they still flow via NATS and the AFTN. Migrating us onto the Eurocontrol B2B platform (aka SWIM Yellow) will come with a new project and system upgrades and most likely this will be before the 2024 deadline
- %
Ongoing
31/12/2024
ITY-ACID
Aircraft Identification Timescales: Entry into force of the Regulation: 13/12/2011 System capability: 02/01/2020
45% Late
Key Feature: Enabling the Aviation Infrastructure -
- 30/06/2023 ASP (By:01/2020)
NATS
NATS plans to achieve full compliance with the ‘ACID’ IR (EU) No 1206/2011 by delivering the final step to use Mode S Flight Identification in a staged manner as part of our programme to replace our main Flight Data processing systems. This is part of our ‘Deploying SESAR’ Programme to implement SESAR capabilities in line with our agreed priorities with our customers which started as part of our RP2 plan and extend into our RP3 plan. The first part of this implementation plans to achieve compliance for our Upper Airspace at Prestwick by March 2021 and at Swanwick (AC) by November 2021 and then Lower Airspace by June 2023.
- 45%
Late
30/06/2023
MIL See NATS' comments. - 45% Late 30/06/2023
LSSIP Year 2019 United Kingdom - Level 1 111 Released Issue
ITY-ADQ
Ensure Quality of Aeronautical Data and Aeronautical Information Timescales: Entry into force of the regulation: 16/02/2010 Article 5(4)(a), Article 5(4)(b) and Article 6 to 13 to be implemented by: 30/06/2013 Article 4, Article5(1) and Article 5(2), Article 5(3) and Article 5(4)(c) to be implemented by: 30/06/2014 All data requirements implemented by: 30/06/2017
50% Late
Links: B0-DATM | Key Feature: Enabling the Aviation Infrastructure -
- 08/04/2024 REG (By:06/2017)
CAA
The CAA published policy and guidance on 8th July 2015 to facilitate compliance with the ADQ regulation. To provide data compliant with the aeronautical data quality requirements, Aerodrome Operators should deliver a full ADQ compliant survey including all of the elements detailed in this CAP. Aerodrome operators should review their IFPs within 5 months following the ADQ compliant survey. To assist Aerodrome Operators in the preparation of the necessary evidence in order to demonstrate compliance with EU 139/2014 and EU 73/2010 during audits, the CAA has created a 5-year Transition Plan. Aerodrome operators will be required to deliver an ADQ-compliant survey before the date of their next scheduled 5-year Instrument Flight Procedure (IFP) review at the latest. 31st December 2023 is the date when all data items in the AIP that are within the scope of the ADQ requirements are expected to be ADQ compliant. As part of the ADQ IR Project the UK CAA published CAP 1732 Aerodrome Survey Guidance for aerodrome operators and other data originators (including contracted activities) in December 2018 to support compliance with the Regulation EU 139/2014, EU 73/2010 and ICAO Annex 4, Annex 11 and Annex 14.
- 96%
Late
31/12/2023
LSSIP Year 2019 United Kingdom - Level 1 112 Released Issue
MIL
In addition to the above, ADQ requirements are reflected in other CAA documents e.g. CAP 1616 Airspace Change Process. The CAA is verifying compliance with ADQ IR as part of the oversight of regulated parties and all non-compliances are raised as findings in audit reports The UK AIS Provider complies with the regulation from 5th October 2018 with the introduction of the new AIM system and subsequent production of the first ADQ AIP (AIRAC 01/2019). In Jan 2019 the new Data Originators Portal was opened enabling ADQ IR compliant data to be submitted via a new web-based interface directly into the system. The new AIM System introduced by the AISP is allowing data originators to annotate data that is not ADQ compliant. All non-compliant data items are listed in UK AIP (GEN 1.7). The NSA introduced a policy in 2014 that stipulated requirements for new data to be ADQ IR compliant 18 months after publication. This policy was introduced and the 18 month period ended in Jan 2017. This deadline includes formal arrangements to be established. MoD will be in a position to initiate compliance with ITY-ADQ-REG01/02/03/04 and ITY-ADQ-APO01/02/03/04/05 SLoAs. MoD is currently working alongside the State to establish a route to compliance; hence formal arrangements are in place.
- 10%
Late
31/12/2021
ASP (By:06/2017)
MIL See REG-MIL comment. - 31% Late 08/04/2024
NATS
NATS has made extraordinary efforts to implement a new system which is fully ADQ compliant. The system gained approval from our Regulator and has been in full operation since 5/10/2018.
- 100%
Completed
05/10/2018
APO (By:06/2017)
All UK Airports
Plans are in place to ensure data is compliant apart from specific aerodrome related information, where the completion date is expected to be beyond that indicated above, but is within the timeframe of Aerodromes resurvey required to support Instrument Flight Procedure design review periods, as required by ICAO Doc 8126. A statement of compliance will be provided to the NSA at the appropriate time.
- 10%
Late
31/12/2023
LSSIP Year 2019 United Kingdom - Level 1 113 Released Issue
ITY-AGDL
Initial ATC Air-Ground Data Link Services Timescales: Entry into force: 06/02/2009 ATS unit operational capability: 05/02/2018 Aircraft capability: 05/02/2020
100% Completed
Links: B0-TBO | Key Feature: Enabling the Aviation Infrastructure -
-- 05/02/2018 REG (By:02/2018)
CAA
Project has delivered core DL Capability. Further FANS development still ongoing. Whilst the UK AIP section is up to date, a revision may be required in 2017 to reflect the adjusted deployment plan pertaining to any re-mediation fixes (both ground and avionics) that will affect the availability of the CPDLC service.
- 100%
Completed
31/10/2013
ASP (By:02/2018)
NATS
NATS implemented the full data link capability in line with Implementing Rule (EC) No 29/2011 in October 2013 and was deemed to be compliant, however it was subsequently found that performance of the overall data link service did not fully meet requirements for all stakeholders. The SESAR Joint Undertaking (SJU) initiated a Work Package to investigate this. NATS led the consortium that carried out the investigation and the Final Report together with the Recovery Plan issued by the SESAR Deployment Manager are being used by stakeholders to inform the actions to be taken to resolve the current difficulties and achieve the required performance by the 2018 deadline. No change needs to be made to the Data Link systems already implemented in NATS but changes are required to be made by the Communications Service Providers we use and they are in the process of making them. Please note that whilst we are already operating data link successfully we are taking a significant role within EASA RMG.0524 to ensure that everything that requires to be implemented is carried out in support of the whole Data Link service chain.
- 100%
Completed
05/02/2018
MIL (By:01/2019)
MIL Military is compliant with data link services IR.
Deliver C17 Training for
RNP and CPDLC/VDL2
100%
Completed
31/12/2009
LSSIP Year 2019 United Kingdom - Level 1 114 Released Issue
ITY-AGVCS2
8,33 kHz Air-Ground Voice Channel Spacing below FL195 Timescales: Entry into force: 07/12/2012 New and upgraded radio equipment: 17/11/2013 New or upgraded radios on State aircraft: 01/01/2014 Interim target for freq. conversions: 31/12/2014 All radio equipment: 31/12/2017 All frequencies converted: 31/12/2018 State aircraft equipped, except those notified to EC: 31/12/2018 State aircraft equipped, except those exempted [Art 9(11)]: 31/12/2020
100% Completed
Key Feature: Enabling the Aviation Infrastructure -
-- 31/12/2018 REG (By:12/2018)
CAA
• Work is progressing with the required phased implementation of 8.33kHz-capable radio equipage and frequency channelisation in accordance with the Regulation requirements. • All non-exempted frequency and ground stations have now been converted. • 100% conversion of the eligible OPC frequency assignments achieved as of 31/12/2018 • 100% conversion of all eligible frequency assignments achieved as of 31/12/2018. The majority of assignments for which an exemption has been granted are planned to be converted between 2020 and 2025 (as reported to NM for the EC).
- 100%
Completed
31/12/2018
MIL See CAA's comment. - 100% Completed 31/12/2018
ASP (By:12/2018)
NATS - - 100% Completed 31/12/2018
MIL See MIL-MIL comment - 100% Completed 31/12/2018
MIL (By:12/2020)
MIL
The MoD has plans in place to achieve this objective and will advise both the NSA and EC of any instances where it will not be able to comply with the dates laid down within the IR.
- 100%
Completed
31/12/2018
APO (By:12/2018)
All UK Airports
All APO SLoAs are partly completed but subject to continued oversight by CAA personnel. CAA have begun negotiations with operators of major airports in order to determine plans for the conversion of their operational frequencies to 8.33kHz spacing.
- 100%
Completed
31/12/2018
MIL
The MoD has plans in place to achieve this objective and will advise both the NSA and EC of any instances where it will not be able to comply with the dates laid down within the IR.
- 100%
Completed
31/12/2018
LSSIP Year 2019 United Kingdom - Level 1 115 Released Issue
ITY-FMTP
Common Flight Message Transfer Protocol (FMTP) Timescales: Entry into force of regulation: 28/06/2007 All EATMN systems put into service after 01/01/09: 01/01/2009 All EATMN systems in operation by 20/04/11: 20/04/2011 Transitional arrangements: 31/12/2012 Transitional arrangements when bilaterally agreed between ANSPs: 31/12/2014
41% Late
Links: B0-FICE, B1-FICE | Key Feature: Enabling the Aviation Infrastructure -
-- 31/12/2020 ASP (By:12/2014)
MIL
See MIL-MIL comment. Capability provisions for Military are provided by NATS, but there are certain elements for the Military that remain either as outstanding (Late) or that they currently have No Plan for.
- 10%
Late
31/12/2020
NATS
NATS had the capability to operate TCP/IP Message Protocols using IPv6 in early 2011 so meeting this requirement. However, introduction to service with our various ANSP partners was largely dependent upon the availability of PENS, and so connectivity/operational service was progressively established from January 2013 onwards with the deadline extension provided for by the Transition Amendment Regulation (EU) No 283/2011 being used by some, each of which were captured in specific bi-lateral agreements.
- 100%
Completed
30/04/2011
MIL (By:12/2014)
MIL
Whilst the MoD is totally reliant on NATS to provide iTEC to replace the EDDUS system currently used for FMTP, there is currently No Plan to introduce FMTP exchange between military Units. Also, under the award of the Project MARSHALL MoD contract to Aquila ATM (NATS and Thales), that this will also be the case for all military airfield ATSUs. Whilst there are currently No Plans, there remains a possibility that RAF Northolt, embedded within the London Control Zone could be scoped for FMTP provision in the future by NATS as the radar operation is co-located in the London Terminal Control Operations room at Swanwick as aircraft there are directly connected to the Network.
- 0%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 116 Released Issue
ITY-SPI
Surveillance Performance and Interoperability Timescales: Entry into force of regulation: 13/12/2011 ATS unit operational capability: 12/12/2013 EHS and ADS-B Out in transport-type State aircraft : 07/06/2020 ELS in transport-type State aircraft : 07/06/2020 Ensure training of MIL personnel: 07/06/2020 Retrofit aircraft capability: 07/06/2020
78% Late
Links: B0-ASUR | Key Feature: Enabling the Aviation Infrastructure -
- 31/12/2020 REG (By:02/2015)
CAA
The UK regulatory process makes provision for the approval of such systems as and when an ANSP chooses to implement it. Note: NATS (NSL/NERL) is currently using some form of Surveillance data at sixteen airports. In addition to the sixteen airports mentioned above, there are another twenty-seven UK airports/aerodromes that are using some form of Surveillance data.
- 100%
Completed
31/03/2014
ASP (By:02/2015)
MIL
All data supplies are fully compliant. Our Safety Assessment covers the service we utilise and is covered under our Safety Management System and submissions to our Regulator.
- 100%
Completed
30/04/2014
NATS NATS were already using All-purpose Data stream Replicators (ADR) operationally so many of these aspects had already been catered for.
- 100% Completed
30/04/2014
MIL (By:06/2020)
MIL
The Military is fully committed to both the UK national and European Mode S equipage programmes. The MoD reports 6 monthly to NATS and annually to the CAA with regards to the Mode S upgrade programme that it has implemented.
- 40%
Late
31/12/2020
LSSIP Year 2019 United Kingdom - Level 1 117 Released Issue
NAV03.1
RNAV 1 in TMA Operations Timescales: Initial operational capability: 01/01/2001 One SID and STAR per instrument RWY, where established: 25/01/2024 All SIDs and STARs per instrument RWY, where established: 06/06/2030
58% Ongoing
Links: B0-CCO, B0-CDO, B1-RSEQ | Key Feature: Advanced Air Traffic Services -
The London airspace change (LAMP Phase 1a) including the UKs first Point Merge structure for London City was introduced in February 2016 and is expected to result in a 14% improvement in Safety and approximately 30kT p.a. fuel savings based against peak UK traffic in 2008. The London Airspace Modernisation Project is now underway and is aiming to introduce widespread airspace change in the SE of England by 2025. Plans are in place for a major airspace change affecting the Prestwick Lower Airspace System (PLAS) incorporating the major Northern and Scottish airports. This will include the application of RNAV 1 in en-route sectors across the Irish Sea, SIDs at Edinburgh, Glasgow and Prestwick and Point Merge at Manchester. Remedial action on existing RNAV 1 SIDs is ongoing at Gatwick, Luton and Birmingham, following unforeseen shortcomings within the designs.
01/01/2030
REG (By:06/2030)
CAA - - 10% Ongoing 01/01/2030
ASP (By:06/2030)
NATS
NATS has active projects that will introduce P-RNAV procedures co-incident with major airspace, or navigation infrastructure changes, as permitted by levels of aircraft equipage. Controllers are already familiar with RNAV and will be trained at unit level prior to P-RNAV procedures being introduced. There are no current plans to implement RNAV at military aerodromes.
Manchester TMA Re-
Development
64%
Ongoing
31/12/2024
LSSIP Year 2019 United Kingdom - Level 1 118 Released Issue
NAV03.2
RNP 1 in TMA Operations Timescales: Start: 07/08/2018 All SIDs and STARs per instrument RWY, at PCP airports: 25/01/2024 One SID and STAR per instrument RWY, where established: 25/01/2024 All SIDs and STARs per instrument RWY, where established: 06/06/2030
16% Ongoing
Links: B1-RSEQ | Key Feature: Advanced Air Traffic Services -
- 06/06/2030 REG (By:06/2030)
CAA - - 10% Ongoing 01/01/2030
ASP (By:06/2030)
NATS
NATS are working with Heathrow, Manchester and Stansted to develop RNP procedures in accordance with aircraft equipage and other airspace change. Controllers may not be familiar with RNP but will be trained at unit level prior to RNP procedures being introduced.
- 33%
Ongoing
06/06/2030
Gatwick Air Navigation Solutions Ltd ANSP
RNP 1 in TMA Operations is intrinsic to the recently initiated NERL-led London Airspace Management Programme Phase 2 (LAMP2) which aims to fundamentally re-design SE UK airspace, including LTMA and airport arrival and departure routes. Work is at a very early stage but anticipates the development and implementation of airspace change in 2023/24 through the creation of a collaborative NERL and London airports programme. Separately Gatwick is engaging with local communities through its Noise Management Board on potential changes to some departure and arrival routes which may enable the early introduction of RNP1. This work is at a very early stage in development.
- 0%
Planned
31/12/2023
LSSIP Year 2019 United Kingdom - Level 1 119 Released Issue
NAV10
RNP Approach Procedures to instrument RWY Timescales: Initial operational capability: 01/06/2011 Instrument RWY ends without precision approach in EU SES States, at Non-PCP airports: 03/12/2020 Instrument RWY ends served by precision approach (including PCP airports): 25/01/2024 Instrument RWY ends without precision approach in EU SES States, at PCP airports: 25/01/2024
39% Ongoing
Links: B0-APTA | Key Feature: Advanced Air Traffic Services -
The UK continues to move forward with the introduction of APV procedures in accordance with the ICAO Assembly Resolution A37-11. By the end of 2019 the status of RNAV (GNSS) approach procedures in the UK was as follows: A total of 29 aerodromes now support 64 LNAV; 31 LNAV/VNAV; and 33 LPV instrument approach procedures. There are 13 EASA aerodromes with Non-precision runways with at least 1 line of minima but do not require all 3, the UK will look to support the airports in making a business decision regarding deployment of further lines of minima. Approach with Vertical Guidance at aerodromes without approach air traffic services is a priority deployment area for the UK Government, attention is focussed on those airfields with safety case assistance being provided. The UK is in the process of approving SBAS for the vertical element of LNAV/VNAV procedures. A CAA hosted data collection area is under development to capture ANS/Aerodrome PBN transition plans as per the PBN-IR requirement. Challenges still remain in extending APV to all runway ends in the UK. The IFP resources available for deployment of Instrument Approach Procedures and the regulatory oversight of those proposals is still challenging; a plan is in place to assist with the issue. Although non-compliant with the ICAO Resolution, the UK will continue to promote APV approaches as a means of improving safety where no 3D guidance exists or as resilience for existing ILS procedures.
25/01/2024
REG (By:01/2024)
CAA The CAA applies the applicable regulatory instruments provided by EASA for both the airworthiness and operational approval.
- 55% Ongoing
03/12/2020
ASP (By:01/2024)
NATS
NATS encourages and supports the development and implementation of APV procedures. NATS provides procedure design, safety assurance and Airspace Change Proposal services to several aerodromes and will assist others as and when contracted to do so.
- 100%
Completed
31/12/2013
CAA - - % Ongoing 25/01/2024
All UK Airports - - 10% Ongoing
25/01/2024
MANCHESTER Airport - - 0%
Not yet planned
-
LSSIP Year 2019 United Kingdom - Level 1 120 Released Issue
NAV12
ATS IFR Routes for Rotorcraft Operations Timescales: Rotorcraft RNP0.3, RNP1 or RNAV1 ATS routes above FL150, where established.: 03/12/2020 One rotorcraft RNP0.3, RNP01 or RNAV1 SID and STAR per instrument RWY, where established.: 25/01/2024 Rotorcraft RNP0.3, RNP1 or RNAV1 ATS routes below FL150, where established.: 25/01/2024 All rotorcraft RNP0.3, RNP01 or RNAV1 SIDs and STARs per instrument RWY, where established.: 06/06/2030
% Not Applicable
Links: B1-APTA | Key Feature: Advanced Air Traffic Services -
There are no current plans to develop low-level IFR routes for rotorcraft. NATS already offers suitably equipped rotorcraft direct routes when possible. -
REG (By:06/2030)
CAA No plans for ATS IFR Helicopter Routes at the moment. - % Not
Applicable -
ASP (By:06/2030) East Midlands International Airport Ltd
- - %
Not Applicable
-
Air Navigation Solutions Ltd.
- - %
Not Applicable
-
NATS - - % Not
Applicable -
LSSIP Year 2019 United Kingdom - Level 1 121 Released Issue
SAF11
Improve Runway Safety by Preventing Runway Excursions Timescales: Initial operational capability: 01/09/2013 Full operational capability: 31/01/2018
86% Late
Key Feature: High Performing Airport Operations -
NATS works pro-actively with both the airport operators and the airlines at the airports at which it provides the ATC service to ensure that the appropriate parts of the European Action Plan for the Prevention of Runway Excursions are implemented. Any incidents of runway excursions are analysed and any lessons learned are promulgated across the NATS units for consideration at a local level where appropriate, thus this will remain living activity in terms of its development.
30/06/2020
REG (By:01/2018)
CAA Most of the Action plan, Part 3.6 recommendations have been implemented. Further work is required for 3.6.5, 3.6.6, 3.6.7 and 3.6.9
- 100% Completed
31/12/2016
ASP (By:12/2014)
MIL
MOD have captured the required recommendations. Consultation between RAF Safety Centre and HQ Air Battlespace Management in progress to establish which recommendations will be/have been implemented for MOD aerodromes considered in-scope.
- 40%
Late
30/06/2020
NATS NATS have implemented the applicable measures of the Action Plan (Parts 3.1 to 3.3) and report through the appropriate mechanism.
- 100% Completed
30/06/2013
APO (By:12/2014)
All UK Airports
Individual organisations have not been assessed for implementation of specific recommendations and at the time of publication of this Report were yet to be confirmed. Many recommendations are captured either by routine oversight or by specific work packages. Currently, this Objective only applies to Heathrow, Gatwick, Stansted and Manchester Airports.
- 75%
Late
30/06/2020
MIL
MOD have captured the required recommendations, many of which have already been incorporated at our larger aerodromes. Consultation between RAF Safety Centre and 11 Gp continues to establish the status of other MOD aerodromes which may be out-of-scope. The intent is to have an Aerodrome Operator Working Group in Q2. The MAA may have a view on this and there will be an advantage in having this elevated at the MAA Operators' Council.
- 40%
Late
30/06/2020
LSSIP Year 2019 United Kingdom - Level 1 122 Released Issue
Additional Objectives for ICAO ASBU Monitoring
AOM21.1
Direct Routing Timescales: Initial Operational Capability: 01/01/2015 Full Operational Capability: 31/12/2017
100% Completed
Links: B0-FRTO, B1-FRTO | Key Feature: Advanced Air Traffic Services -
- 31/03/2015 ASP (By:12/2017)
NATS
NATS introduced Direct Route Airspace (DRA) in the Rathlin & Central sectors of Prestwick Centre airspace in March 2015. This has enabled airspace users to flight plan direct routes across the identified portion of airspace. NATS does not have any current plans to expand upon this implementation of DRA. Instead NATS is concentrating its efforts on implementation of Free Route Airspace (FRA).
- 100%
Completed
31/03/2015
ATC02.2
Implement ground based safety nets - Short Term Conflict Alert (STCA) - level 2 for en-route operations Timescales: Initial operational capability: 01/01/2008 Full operational capability: 31/01/2013
100% Completed
Links: B0-SNET | Key Feature: Advanced Air Traffic Services -
-- 30/11/2010 ASP (By:01/2013)
MIL
STCA is fully implemented at NATS en-route units and accords with the principles of the Eurocontrol specification. For the Military Authority, STCA is provided through Future Military Area Radar Services (FMARS). Where services are provided at collocated ACCs, STCA is implemented.
- 100%
Completed
30/11/2010
NATS
STCA is fully implemented at NATS en-route units and accords with the principles of the Eurocontrol specification. For the Military Authority, STCA is provided through Future Military Area Radar Services (FMARS). Where services are provided at collocated ACCs, STCA is implemented.
- 100%
Completed
31/01/1996
LSSIP Year 2019 United Kingdom - Level 1 123 Released Issue
ATC16
Implement ACAS II compliant with TCAS II change 7.1 Timescales: Initial operational capability: 01/03/2012 Full operational capability: 31/12/2015
100% Completed
Links: B0-ACAS | Key Feature: Advanced Air Traffic Services -
-- 31/12/2016 REG (By:12/2015)
CAA
Commission Regulation (EU) No. 1332/2011 of 16 December 2011, which lays down common airspace usage requirements and operating procedures for airborne collision avoidance (ACAS), states that all applicable aircraft shall utilise collision avoidance logic version 7.1 after 1 December 2015 Action has subsequently been taken to notify industry of the requirement and to amend aeronautical publications accordingly. CAA have published an Information Notice IN-2015/095 to remind operators of this change. UK has agreed and granted short-term exemptions for a limited number of delivery flights that are non-compliant (but are V7.0 compliant). To date approximately three UK operators subject to V7.1 carriage exemptions pending equipage have been issued, valid to 31 Jan 2016.
- 100%
Completed
01/12/2015
ASP (By:03/2012)
MIL The amendments of TCAS 7.1 do not change the controller’s actions under RA 3235 and therefore all controllers are trained in the event of an ACAS RA.
- 100% Completed
10/12/2015
NATS Completed in 2012. - 100% Completed 31/03/2012
MIL (By:12/2015)
MIL
All pilots are introduced to a basic collision warning system during Elementary Flying Training, and will be further trained on TCAS II during Advanced Flying Training. The MoD are now operating TCAS 7.1 on all State Transport Aircraft.
- 100%
Completed
31/12/2016
LSSIP Year 2019 United Kingdom - Level 1 124 Released Issue
FCM01
Implement enhanced tactical flow management services Timescales: Initial operational capability: 01/08/2001 Full operational capability: 31/12/2006
68% Late
Links: B0-NOPS | Key Feature: Optimised ATM Network Services -
-- 31/12/2020 ASP (By:07/2014)
MIL
For the Military Authority, Area Radar Units Completed. For Military Terminal Units this portion is deemed as No Plan and therefore the Military SLoA is deemed Completed.
- 100%
Completed
31/01/2003
NATS
Of the three outstanding elements of FCM01, ASP06 is planned as part of the NATS Strategy with full implementation expected circa 2020. ASP01 is not applicable as NATS are already providing standard data. There are no plans yet to inform NM of aircraft holding for ATFM purposes (ASP07), but it could be planned as part of the Future Centres Programme by circa 2020.
- 68%
Late
31/12/2020
ITY-COTR
Implementation of ground-ground automated co-ordination processes Timescales: Entry into force of Regulation: 27/07/2006 For putting into service of EATMN systems in respect of notification and initial coordination processes: 27/07/2006 For putting into service of EATMN systems in respect of Revision of Coordination, Abrogation of Coordination, Basic Flight Data and Change to Basic Flight Data: 01/01/2009 To all EATMN systems in operation by 12/2012: 31/12/2012
100% Completed
Links: B0-FICE | Key Feature: Advanced Air Traffic Services -
-- 30/04/2015 ASP (By:12/2012)
NATS Aspects of this objective are covered by the current NAS Flight Data Processing System. - 100% Completed
30/04/2015 MIL (By:12/2012)
MIL
The UK MoD does not have current or future plans to implement ground-ground automated co-ordination processes between Military aerodromes and Military Area Controllers. Following a briefing by MARSHALL on 2 December 2014 at the ATM Symposium, there are currently no plans to provide any automated solution between terminal units and the Area Radar FDP system.
- %
Not Applicable
-
LSSIP Year 2019 United Kingdom - Level 1 125 Released Issue
Local Objectives
Note: Local Objectives are addressing solutions that are considered beneficial for specific operating environments, therefore for which a clear widespread commitment has not been expressed yet. They are characterised with no deadline and voluntary applicability area.
AOP14 Remote Tower Services Applicability and timescale: Local 75% Ongoing
Links: B1-RATS | Key Feature: High Performing Airport Operations EGLC - London City Airport
The contract to provide ATS at London City Airport from Swanwick Centre using Remote Tower Technology is progressing. The construction of the mast is now complete with optimised live images being made available in the Remote ATC Ops Room at Swanwick in Q4 2019. Controller training will commence in Q2 2020 with transition into full operational service planned for Q3 2020.
31/10/2020
AOP15 Enhanced traffic situational awareness and airport safety nets for the vehicle drivers Applicability and timescale: Local
% Not Applicable
Links: B2-SURF | Key Feature: High Performing Airport Operations EGGW - London Luton Airport
LLA does not currently have A-SMGCS, so the option for an interface between the 2 systems is not available. -
AOP16 Guidance assistance through airfield ground lighting Applicability and timescale: Local % Not yet
planned Links: B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations
EGCC - Manchester Airport Objective AOP13 (Automated Assistance to Controller for Surface Movement Planning and Routing) is a pre-requisite for AOP16. -
AOP16 Guidance assistance through airfield ground lighting Applicability and timescale: Local % Not yet
planned Links: B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations
EGKK - London Gatwick Airport Objective AOP13 (Automated Assistance to Controller for Surface Movement Planning and Routing) is a pre-requisite for AOP16 -
AOP16 Guidance assistance through airfield ground lighting Applicability and timescale: Local % Not yet
planned Links: B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations
EGLL - London Heathrow Airport Objective AOP13 (Automated Assistance to Controller for Surface Movement Planning and Routing) is a pre-requisite for AOP16 -
AOP16 Guidance assistance through airfield ground lighting Applicability and timescale: Local % Not yet
planned Links: B1-RSEQ, B2-SURF | Key Feature: High Performing Airport Operations
EGSS - London Stansted Airport Objective AOP13 (Automated Assistance to Controller for Surface Movement Planning and Routing) is a pre-requisite for AOP16. -
LSSIP Year 2019 United Kingdom - Level 1 126 Released Issue
AOP17 Provision/integration of departure planning information to NMOC Applicability and timescale: Local % Not
Applicable Links: B1-ACDM, B1-NOPS | Key Feature: High Performing Airport Operations
EGCC - Manchester Airport Not applicable for the airports that have deployed A-CDM or plan to deploy A-CDM in near future. -
AOP17 Provision/integration of departure planning information to NMOC Applicability and timescale: Local % Not
Applicable Links: B1-ACDM, B1-NOPS | Key Feature: High Performing Airport Operations
EGGW - London Luton Airport This is not applicable to LLA as we already send ATC DPI messages to NMOC and receive FUM messages from them. -
AOP17 Provision/integration of departure planning information to NMOC Applicability and timescale: Local % Not
Applicable Links: B1-ACDM, B1-NOPS | Key Feature: High Performing Airport Operations
EGLL - London Heathrow Airport Not applicable for the airports that have deployed A-CDM or plan to deploy A-CDM in near future. -
AOP17 Provision/integration of departure planning information to NMOC Applicability and timescale: Local % Not
Applicable Links: B1-ACDM, B1-NOPS | Key Feature: High Performing Airport Operations
EGSS - London Stansted Airport Not applicable for the airports that have deployed A-CDM or plan to deploy A-CDM in near future. -
AOP18 Runway Status Lights (RWSL) Applicability and timescale: Local % Not yet
planned Links: B2-SURF | Key Feature: High Performing Airport Operations
EGCC - Manchester Airport Not yet planned for Manchester -
AOP18 Runway Status Lights (RWSL) Applicability and timescale: Local % Not yet
planned Links: B2-SURF | Key Feature: High Performing Airport Operations
EGLL - London Heathrow Airport Heathrow currently provides 100% guidance for aircraft through manual switching of airfield ground lighting. -
AOP18 Runway Status Lights (RWSL) Applicability and timescale: Local % Not yet
planned Links: B2-SURF | Key Feature: High Performing Airport Operations
EGSS - London Stansted Airport Not yet planned for Stansted -
ATC18 Multi-Sector Planning En-route - 1P2T Applicability and timescale: Local % Not yet
planned Key Feature: Advanced Air Traffic Services
- No current plans to implement this functionality before 2025. -
LSSIP Year 2019 United Kingdom - Level 1 127 Released Issue
ATC19 Enhanced AMAN-DMAN integration Applicability and timescale: Local
10% Ongoing
Links: B2-RSEQ | Key Feature: Advanced Air Traffic Services -
NATS have deployed an HMI that enables Terminal Control, Heathrow and Gatwick ATC to see shared AMAN-DMAN data. These are interim solutions and will be replaced as part of our improvement strategy.
31/12/2025
ATC20 Enhanced STCA with down-linked parameters via Mode S EHS Applicability and timescale: Local
100% Completed
Links: B1-SNET | Key Feature: Advanced Air Traffic Services -
31/12/2009
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGBB - Birmingham Airport
Birmingham Airport has had a strong focus on environmental performance for many years and has mature environmental mitigation measures in place and a high degree of inter-agency co-operation to minimise environmental impact both on the ground and within Birmingham controlled airspace. The airport is always mindful of new environmental initiatives. Its open reporting of environmental impact with both partner and community organisations continues.
31/12/2013
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGCC - Manchester Airport
NATS is committed to reducing ATM environmental impact and has in place a large programme of activity to deliver its ambitious environmental targets. In addition to our internal programme of airspace and operational environmental efficiency, NATS plays an active role in Manchester Airports Collaborative Environmental Management Group. NATS is working collaboratively with the airport to review and improve airspace and procedure design to reduce noise, fuel burn and emissions. Environmental aspects of flight operations have been a focus of existing collaborative forums for several years, largely focused on noise, track and CDA. This approach was enhanced with the commencement of formal CEM at the beginning of 2010. The CEM group continues to provide the focus for a variety of environmental and operational initiatives including forthcoming airspace changes and the roll-out of the Sustainable Aviation Departures code of practice.
31/12/2014
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGGD - Bristol Airport
NATS works closely with the airport operator and airlines at Bristol to identify and deliver opportunities for CEM. NATS is working collaboratively with the airport to review and improve airspace and procedure design to reduce noise, fuel burn and emissions.
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 128 Released Issue
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGGW - London Luton Airport
NATS works closely with the airport operator to devise the appropriate plans required to support CEM. NATS is working collaboratively with the airport and airlines to review and improve airspace and procedure design to reduce noise, fuel burn and emissions. Various groups with various stakeholders are used to progress and mitigate impacts of noise as part of the environmental impact of air traffic procedures.
31/12/2015
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGKK - London Gatwick Airport
In March 2018, GAL introduced an agenda item ‘CEM’ at the long-standing Flight Operations Performance and Safety Committee proposing that the committee is a suitable CEM forum as it already collaboratively addresses safety, operational issues such as de-icing and weather preparedness, and noise abatement measures. We proposed regularly discussing emissions related measures and abatement. During 2018 and 2019 the FLOPSC discussed GAL carbon foot-printing data, reduced engine taxiing and electric vehicle infrastructure.
30/06/2019
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGLC - London City Airport
NATS plays an active role in promoting environmental best practice across the aviation industry including at London City. NATS is working collaboratively with the airport to review and improve airspace and procedure design to reduce noise, fuel burn and emissions. London City Airports Environmental Management Programme forms part of the Section 106 Planning Agreement with the London Borough of Newham. As part of the Agreement, the systems and processes in place to mitigate environmental impacts are reported back annually to the Local Authority and made available publicly. As part of the Section 106 Agreement, London City is required to implement the following measures: a) Air Quality Strategy; b) Noise & Track Keeping management scheme; c) Airline Penalty and credits system; d) Wake Turbulence studies and monitoring; e) Noise Complaints Scheme; f) APU Control; g) Restricted operating hours (daily closure 2230-0630 and 24 weekend closure period). In order to ensure that London City continually progresses its environmental programme, it has committed through an updated (2009) legal planning agreement with Newham Council, to a range of monitoring and mitigation strategies and action plans. These actions are being reviewed and updated in order to be published in 2016.
31/12/2015
LSSIP Year 2019 United Kingdom - Level 1 129 Released Issue
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGLL - London Heathrow Airport
Heathrow Airport have installed a formal CEM database and NATS is a principal partner in the successful delivery of this project. NATS is committed to reducing ATM environmental impact and has in place a large programme of activity to deliver its ambitious environmental targets. In addition to our internal programme of airspace and operational environmental efficiency, NATS plays an active role in Heathrow Airport's adoption of A-CDM and other collaborative groups on operational and environmental efficiency. NATS is working collaboratively with the airport and airlines to review and improve airspace and procedure design to reduce noise, fuel burn and emissions.
31/12/2014
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGNT - Newcastle Airport
Regular meetings of the Airline Technical Committee (ATC) - comprising ATC staff and Newcastle based airline captains - take place and environmental issues are raised at each meeting, with feedback provided to the airlines on track keeping and noise complaints. ATC staff Chair these meetings. CDAs discussed and implemented largely from discussions with airlines in this forum. Noise monitoring and track keeping performance information are discussed with Airlines at the ATC meetings. Noise monitoring equipment, along with Air Traffic control radar recordings, are used to investigate noise complaints/issues and provide information that is discussed with airlines. A new noise and tracking keeping system has recently been installed (2013) and will enable aircraft profiles to be tracked with greater accuracy. Newcastle International Airport Limited (NIAL) have a dedicated polluted water system, which manages all surface water run-off from the airfield. All areas which are subject to de-icing are drained to a series of lagoons to capture and hold the polluted water. Continuous water monitoring, through the use of Total Organic Carbon (TOC) monitors, determine whether the water is discharged to the foul sewer or surface water. Procedures are in place for the systems operation. The Environmental Adviser carries out training, through tool box talks and team briefs, to operational staff such as Engineers, Fire Service and Air Traffic.
31/01/2009
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGPF - Glasgow Airport
NATS, the airport operator and airlines work closely to deliver improvements in operational efficiency. Glasgow is committed to reducing environmental impacts through their Airport Sustainability Strategy. The Airport, NATS and airlines are collaboratively working to review and improve airspace and procedure design to reduce noise, fuel burn and emissions.
31/12/2015
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGPH - Edinburgh Airport
NATS, the airport operator and airlines work closely to deliver improvements in operational efficiency. NATS is working collaboratively with the airport and airlines to review and improve airspace and procedure design to reduce noise, fuel burn and emissions. Edinburgh is actively working with the ANSP and airlines to control environmental impact, although no formal agreements are currently in place.
31/12/2016
LSSIP Year 2019 United Kingdom - Level 1 130 Released Issue
ENV02 Airport Collaborative Environmental Management Applicability and timescale: Local 100% Completed
Key Feature: High Performing Airport Operations EGSS - London Stansted Airport
NATS, the airport operator and airlines work closely to deliver improvements in operational efficiency. NATS is working collaboratively with the airport and airlines to review and improve airspace and procedure design to reduce noise, fuel burn and emissions.
31/12/2013
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 75% Ongoing
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGBB - Birmingham Airport
PBN SIDs already implemented for departures to the south from runway 33. And where possible CCO is given provided until the aircraft is transferred to London control. PBN SIDs have been designed and are due to be implemented for departures to the south from runway 15 in the second half of 2020. PBN SIDs already implemented for departures to the north from runway 33 and 15, and where possible CCO is provided until the aircraft is transferred to Scottish control. Birmingham Airport is currently undergoing an upgrade of its Noise and Track-keeping System, following this upgrade its intended that CCOs will be monitored.
31/12/2020
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local % Not yet
planned Links: B0-CCO | Key Feature: Advanced Air Traffic Services
EGCC - Manchester Airport Currently at the pre-planning stage. The timescale for the implementation of PBN SIDs at Manchester is entirely dependent upon the progress of the Prestwick Lower Airspace Systemisation project (PLAS). The ability to routinely monitor and report CCO performance and provide feedback to aircraft operators already exists within the airport NTK monitoring systems. Currently at the pre-planning stage.
-
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local % Not
Applicable Links: B0-CCO | Key Feature: Advanced Air Traffic Services
EGGD - Bristol Airport Will be addressed as a component of Bristol Airports new master planning process. -
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local % Not
Applicable Links: B0-CCO | Key Feature: Advanced Air Traffic Services
EGGW - London Luton Airport We have a 5 year program to deliver PBN on all departure routes, although due to the complexity of the LTMA designing departures routes to enable CCO is extremely difficult because of the multiple interactions across the terminal area. We are working with the ANSP to facilitate the introduction of efficient PBN routes that will allow a higher percentage of continuous climb than is achieved today.
-
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local % Planned
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGKK - London Gatwick Airport
CCO is intrinsic to the design concepts of the recently initiated NERL-led London Airspace Management Programme Phase 2 (LAMP2) which aims to fundamentally re-design SE UK airspace, including LTMA and airport arrival and departure routes. Work is at a very early stage but anticipates the development and implementation of airspace change in 2023/24 through the creation of a collaborative NERL and London airports programme.
31/12/2024
LSSIP Year 2019 United Kingdom - Level 1 131 Released Issue
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 100% Completed
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGLL - London Heathrow Airport
CCO operations at Heathrow commenced in 2013. Heathrow reports on and is able to monitor CCO. Parameters can be changed flexibly if required within the Noise and Track Keeping System (ANOMS). Measurement criteria exist and compliance is measured but Heathrow cannot control the compliance due to airspace limits. CCO operations are dependent on local airspace around Heathrow. When the stacks are empty then CCO compliance increases and vice versa when they are full. NATS facilitate CCO where they can and airlines never refuse an opportunity for a CCO departure. As part of LAMP (Airspace change programme) it is necessary to design an airspace that provides maximum efficiency and maximum respite to allow CCO to be applied at all times at Heathrow.
31/12/2013
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 100% Completed
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGNT - Newcastle Airport
Newcastle has 3 RNAV SID's implemented and 70% of our departures use these. They have continuous climb to FL80 and generally achieve much more than this. Newcastle now monitors approaches for CDO's and feeds data back to the airlines through the airline technical committee.
30/06/2019
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local % Not
Applicable Links: B0-CCO | Key Feature: Advanced Air Traffic Services
EGNX - Nottingham East Midlands Airport East Midlands transfer the departures to the Area Centres passing 2500' for them to then climb them further beyond the SID levels. -
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 100% Completed
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGPF - Glasgow Airport
CCOs currently in place with targets for airlines and being monitored and reviewed at Flight Operators Committees. We work closely with our ANSP NATS to understand how the airport can improve. Glasgow has some unique terrain on the approach to Runway 23 which makes it more difficult for aircraft to complete a CDA therefore NATS work with the airlines to understand the best CCO profile achievable. Glasgow continues to strive to further improve CCO achievement as part of the UK-wide Sustainable Aviation CDO campaign.
31/12/2019
LSSIP Year 2019 United Kingdom - Level 1 132 Released Issue
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 50% Late
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGPH - Edinburgh Airport
New PBN SIDs have been designed and we are in the second stage of consultation. Co-ordination activities include working with NERL and our airline customers to prepare for implementation in March 2018. Performance monitoring will be in place and reviewed after implementation, throughout 2018. We are working with airline partners to support implementation and CCO performance. At the start of Nov 18 the CAA rejected Edinburgh Airspace Change Proposal. This would have introduced the following in Feb 19: • RNAV1 SIDs replacing all existing SIDs • Omni Directional Departure procedures for non-RNAV1 departures • RNAV1 arrival transition for aircraft arriving from west and south • RNAV instrument approach procedures • RNAV5 STARs replacing all existing STARs Edinburgh Airport expects to submit a revised ACP during 2019. A planned implementation date has not yet been agreed.
30/03/2022
ENV03 Continuous Climb Operations (CCO) Applicability and timescale: Local 100% Completed
Links: B0-CCO | Key Feature: Advanced Air Traffic Services EGSS - London Stansted Airport
We have been monitoring since 2013, they are reported at various community and operational forums. We measure CCO from surface to 10,000 feet with any level segments of 2 NM or greater is considered a non-CCO. The minimum height variation within this 2 NM segment is 75 foot or greater. We regularly feedback to our ANSP and en-route ANSP all CCO data. Part of LAMP Phase 1A was moving Detling (DET) departures on to the Clacton route to facilitate CCO.
31/12/2013
LSSIP Year 2019 United Kingdom - Level 1 133 Released Issue
6. Annexes
A. Specialists involved in the ATM implementation reporting for the United Kingdom
LSSIP Co-ordination
LSSIP Focal Points Organisation Name
LSSIP National Focal Point Civil Aviation Authority Craig KING and Markos KALLIAS
LSSIP Focal Point for NSA/CAA Civil Aviation Authority Craig KING and Markos KALLIAS
LSSIP Focal Point for ANSP Civil Aviation Authority Craig KING and Markos KALLIAS
LSSIP Focal Point for Airport Civil Aviation Authority Craig KING and Markos KALLIAS
LSSIP Focal Point for Military Civil Aviation Authority Craig KING and Markos KALLIAS
Other Focal Points Organisation Name
Focal Point for U-space Civil Aviation Authority James Bell
Focal Point for NETSYS NATS Mark Witherington
LSSIP Year 2019 United Kingdom - Level 1 134 Released Issue
B. National stakeholders organisation charts
An overview of the UK Organisation to Manage Related EATM Matters is shown below.
Responsible Ministry Civil Aviation Authority/ Administration
Provider of Civil Air Traffic Services
Military Authority
Department for Transport (DfT)
Civil Aviation Authority (CAA) NATS Defence Airspace and Air Traffic Management (DAATM)
Great Minster House 76, Marsham Street London SW1P 4DR
Aviation House Gatwick Airport South West Sussex RH6 0YR
4000 Parkway Whiteley, Fareham Hampshire PO15 7FL
Aviation House Gatwick Airport South West Sussex RH6 0YR
Provisional Council: Dan Micklethwaite Director General Civil Aviation
Provisional Council: Mark Swan Group Director Safety and Airspace Regulation (SARG)
Agency Advisory Body (AAB): Harry Daly International CNS/ATM Implementation Lead (Airspace, ATM and Aerodromes) (SARG)
Agency Advisory Body (AAB): Alison MacMaster Director International Affairs
LSSIP Year 2019 United Kingdom - Level 1 135 Released Issue
C. Implementation Objectives’ links with SESAR KF, ASBU blocks and more
The table below (extracted from the MPL3 Progress Plan 2019) shows for each implementation objective, the links with the SESAR Key Features, Major ATM Changes, SESAR 1 Solutions, Deployment Program families, ICAO ASBU, EASA EPAS and AAS TP milestones.
Level 3 Implementation Objectives SESAR
Key Feature
Major ATM change
SESAR Solution
DP family
ICAO ASBU B0, B1, B2
EPAS AAS TP
AOM13.1 - Harmonise OAT and GAT handling
FRA & A-FUA - - - - -
AOM19.1 - ASM tools to support A-FUA
FRA & A-FUA #31 3.1.1 B1-FRTO B1-NOPS - AM-1.8
AOM19.2 - ASM management of real-time airspace data
FRA & A-FUA #31 3.1.2 B1-FRTO B1-NOPS - AM-1.8
AOM19.3 - Full rolling ASM/ATFCM process and ASM information sharing
FRA & A-FUA #31 3.1.3 B1-FRTO B1-NOPS B2-NOPS
- AM-1.8
AOM19.4 – Management of Pre-defined Airspace Configurations
FRA & A-FUA #31 3.1.4 B1-FRTO B1-NOPS - -
FCM03 - Collaborative flight planning
ATFCM - 4.2.3 B0-NOPS - AM-1.14
*FCM04.1 – STAM phase 1
ATFCM - 4.1.1 - - -
FCM04.2 - STAM phase 2
ATFCM #17 4.1.2 - - AM-1.11
FCM05 - Interactive rolling NOP
NOP #20, #21 4.2.2 4.2.4
B1-ACDM B1-NOPS
- AM-1.12
FCM06 - Traffic Complexity Assessment
ATFCM #19 4.4.2 B1-NOPS -
AM-1.13
FCM07 - Calculated Take-off Time (CTOT) to Target Times for ATFCM Purposes
ATFCM #18 4.3.1 4.3.2 B1-NOPS
- AM-1.9
FCM09 - Enhanced ATFM Slot swapping
ATFCM #56 - B1-NOPS -
-
LSSIP Year 2019 United Kingdom - Level 1 136 Released Issue
Level 3 Implementation Objectives SESAR
Key Feature
Major ATM change
SESAR Solution
DP family
ICAO ASBU B0, B1, B2
EPAS AAS TP
*AOM21.1 - Direct Routing
Free Route #32 3.2.1 3.2.3
B0-FRTO B1-FRTO
- -
AOM21.2 - Free Route Airspace
Free route #33, #66 3.2.1 3.2.4 B1-FRTO
- AM-1.6 AM-1.10 AM-5.1
ATC02.8 - Ground based safety nets
ATM Systems - 3.2.1 B0-SNET B1-SNET
- -
ATC02.9 – Enhanced STCA for TMAs
ATM Systems #60 - B0-SNET B1-SNET MST.030 -
ATC07.1 - Arrival management tools
Enhanced Arrival Seq - 1.1.1 B0-RSEQ
- -
ATC12.1 - MONA, TCT and MTCD
ATM Systems #27, #104 3.2.1 B1-FRTO
- AM-1.15 AM-5.1
ATC15.1 – Initial extension of AMAN to En-route
Enhanced Arrival Seq - 1.1.2 B1-RSEQ
- -
ATC15.2 - Extension of AMAN to En-route
Enhanced Arrival Seq #05 1.1.2 B1-RSEQ
- AM-1.3
ATC17 - Electronic Dialog supporting COTR
Free Route - 3.2.1 - -
AM-1.3
ATC18 – Multi Sector Planning En-route – 1P2T
Free Route #63 - - - AM-4.3
AM-5.1
ATC19 - Enhanced AMAN-DMAN integration
Enhanced Arrival Seq #54 - B2-RSEQ
- -
ATC20- Enhanced STCA with down-linked parameters via Mode S EHS
ATM Systems #69 - B1-SNET -
-
ENV01 – Continuous Descent Operations
PBN - - B0-CDO B1-CDO
- -
ENV03 – Continuous Climb Operations
PBN - - B0-CCO -
-
NAV03.1 – RNAV1 in TMA Operations
PBN #62 - B0-CDO B0-CCO B1-RSEQ
RMT.0639 RMT.0445 -
LSSIP Year 2019 United Kingdom - Level 1 137 Released Issue
Level 3 Implementation Objectives SESAR
Key Feature
Major ATM change
SESAR Solution
DP family
ICAO ASBU B0, B1, B2
EPAS AAS TP
NAV03.2 – RNP1 in TMA Operations
PBN #09, #51 1.2.3 1.2.4 B1-RSEQ RMT.0639
RMT.0445 -
NAV10 - RNP Approach Procedures to instrument RWY
PBN #103 1.2.1 1.2.2 B0-APTA
RMT.0639 RMT.0445RMT.0643
-
NAV12 – ATS IFR Routes for Rotorcraft Operations
PBN #113 - B1-APTA MST.031 -
AOP04.1 - A-SMGCS Surveillance (former Level 1)
Surface mgt #70 2.2.1 B0-SURF -
-
AOP04.2 - A-SMGCS RMCA (former Level 2)
Surface mgt - 2.2.1 B0-SURF -
-
AOP05 - Airport CDM
Collaborative Apt #106 2.1.1
2.1.3 B0-ACDM B0-RSEQ
- -
AOP10 - Time Based Separation
Enhanced ops in vicinity of rwy
#64 2.3.1 B1-RSEQ B2-WAKE
- -
AOP11 - Initial Airport Operations Plan
Collaborative Apt #21 2.1.4 B1-ACDM
- -
AOP12 - Improve RWY and Airfield safety with CATC detection and CMAC
Surface mgt #02 2.1.2 2.5.1 B2-SURF
- -
AOP13 – Automated assistance to Controller for Surface Movement planning and routing
Surface mgt #22 #53 2.4.1
B1-ACDM B1-RSEQ B2-SURF
- -
AOP14 – Remote Tower Services
Remote Tower
#12, #71, #52, #13 - B1-RATS RMT.0624 -
AOP15 - Enhanced traffic situational awareness and airport SNET for the vehicle drivers
Surface mgt #04 - B2-SURF -
-
AOP16 - Guidance assistance through airfield ground lighting
Surface mgt #47 - B1-RSEQ B2-DURF
- -
AOP17 - Provision/integration of departure planning information to NMOC
Collaborative Apt #61 - B1-ACDM
B1-NOPS -
-
LSSIP Year 2019 United Kingdom - Level 1 138 Released Issue
Level 3 Implementation Objectives SESAR
Key Feature
Major ATM change
SESAR Solution
DP family
ICAO ASBU B0, B1, B2
EPAS AAS TP
AOP18 - Runway Status Lights (RWSL)
Surface mgt #01 - B2-SURF -
-
ENV02 – Airport Collaborative Environmental Management
Collaborative Apt - - -
- -
NAV11 - Implement precision approach using GBAS CAT II/III based on GPS L1
Enhanced ops in vicinity of rwy
#55 - B1-APTA -
-
SAF11 - Improve runway safety by preventing runway excursions
Surface mgt - - - MST.007
RMT.0570 RMT.0703
-
COM10 - Migration from AFTN to AMHS
CNS rat. - - - -
-
COM11.1 - Voice over Internet Protocol (VoIP) in En-Route
CNS rat. - 3.1.4 - -
AM-1.3
COM11.2 - Voice over Internet Protocol (VoIP) in Airport/Terminal
CNS rat. - - - -
-
COM12 - NewPENS
Pre-SWIM & SWIM - 5.1.2
5.2.1 B1-SWIM -
-
FCM08 – Extended Flight Plan
Pre-SWIM & SWIM #37 4.2.3 B1-FICE
- AM-1.4
INF07 - Electronic Terrain and Obstacle Data (e-TOD)
Pre-SWIM & SWIM - 1.2.2 -
RMT.0703 RMT.0704 RMT.0722
-
INF08.1 - Information Exchanges using the SWIM Yellow TI Profile
Pre-SWIM & SWIM #35, #46
5.1.3, 5.1.4, 5.2.1, 5.2.2, 5.2.3, 5.3.1, 5.4.1, 5.5.1, 5.6.1
B1-DATM B1-SWIM - AM-1.5
LSSIP Year 2019 United Kingdom - Level 1 139 Released Issue
Level 3 Implementation Objectives SESAR
Key Feature
Major ATM
change
SESAR Solution
DP family
ICAO ASBU B0, B1, B2 EPAS AAS TP
INF08.2 - Information Exchanges using the SWIM Blue TI Profile
Pre-SWIM & SWIM #28, #46
5.1.3, 5.1.4, 5.2.1, 5.2.2, 5.2.3, 5.6.2
B1-DATM B1-SWIM - AM-9.1
INF09 - Digital Integrated Briefing
Pre-SWIM & SWIM #34 - B1-DATM
B1-SWIM -
-
ITY-ACID - Aircraft identification
CNS rat. - - - -
-
ITY-ADQ - Ensure quality of aeronautical data and aeronautical information
Pre-SWIM & SWIM - 1.2.2 B0-DATM RMT.0722
RMT.0477 -
ITY-AGDL - Initial ATC air-ground data link services
Data link - 6.1.1 6.1.3 6.1.4
B0-TBO RMT.0524 AM-1.1
ITY-AGVCS2 – 8.33 kHz Air-Ground Voice Channel Spacing below FL195
CNS rat. - - - -
-
ITY-FMTP - Apply a common flight message transfer protocol (FMTP)
Pre-SWIM & SWIM - - B0-FICE
B1-FICE -
AM-1.3
ITY-SPI - Surveillance performance and interoperability
CNS rat. - - B0-ASUR RMT.0679 RMT.0519 -
* AOM21.1 was achieved in 2017 and FCM04.1 was achieved in 2018, therefore they were removed from the Implementation Plan 2018/2019. They are kept in this table for traceability purposes.
Legend:
Objective’s link to SESAR Key Feature:
Optimised ATM Network Services
High Performing Airport Operations
Advanced Air Traffic Services
Enabling Aviation Infrastructure
LSSIP Year 2019 United Kingdom - Level 1 140 Released Issue
D. SESAR Solutions implemented in a voluntary way1
These SESAR Solutions are not included yet in the ATM MP L3 Plan.
EUROCONTROL is tasked by the SJU to identify the implementation progress of functionalities corresponding to validated SESAR Solutions published in the SJU Solutions Catalogue (https://www.sesarju.eu/newsroom/brochures-publications/sesar-solutions-catalogue), for which there is no implementation Objective (yet) in the ATM MP L3 Plan. This will allow to identify early movers and to gauge the interest generated by some of these functionalities, with the view of potentially addressing them with new Implementation Objectives in the ATM MPL3 Plan.
A facilitated questionnaire using the existing ATM MP L3 / LSSIP methodology is added to capture information on non-committed SESAR solutions. For practical reasons, since the LSSIP 2017 cycle the questionnaire is included in the LSSIP Annex.
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
High Performing Airport Operations
#23
D-TAXI service for controller-pilot datalink communications (CPDLC) application
Use of data link communications between the Tower Controllers and the flight crew during surface movement. It is based on the D-TAXI service from the CPDLC application, as standardised by RTCA SC214/EUROCAE WG78 (DO-350 & DO-351). It also includes the access to this service for end users, through the Tower CWP for the ATCO and through the aircraft DCDU for the flight crew.
N N
#48
Virtual block control in low visibility procedures (LVPs)
In low visibility conditions, the tower controller working positions are provided with Virtual Stop Bars (VSB) to improve low visibility operations and enhance controllers¿ situational awareness. Virtual Stop Bars can be used by the controller to reduce block-sizes once procedural control applies. Additional controller safety nets will be available to indicate violations of Stop Bars (including Virtual Stop Bars) and to monitor aircraft for any kind of unauthorised movement (Watch Dog).
N N
1 Referred as ‘Non-committed’ SESAR solutions in the MP L3 Report.
LSSIP Year 2019 United Kingdom - Level 1 141 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
#116 De-icing management tool
The solution increases the accuracy of information related to when the procedure is going to take place, how long it will take and when the aircraft will be ready to taxi for departure, which is currently calculated by predetermined estimates. The solution means that air traffic controllers no longer need to work without situational awareness of de-icing activities and needing to make their own estimates of when aircraft are ready for departure. The solution envisages that de-icing operations are no longer characterised by the A-CDM concept as ‘adverse conditions’, i.e. a state that is in need of collaborative recovery procedures, but rather a part of normal operations in the winter period. The DIMT allows for the scheduling and monitoring of de-icing operations. It is an internet browser-based tool that addresses three distinct procedures for de-icing: - Remote de-icing, which occurs at a specific location on the airport away from the parking stand; - On-stand de-icing, which occurs just before the aircraft leaves its stand; and - After-push de-icing, which occurs after the aircraft has pushed back from the stand and is positioned to start taxiing after de-icing.
N N
#117
Reducing Landing Minima in Low Visibility Conditions using Enhanced Flight Vision Systems (EFVS)
The SESAR Solution “Reducing landing minima in low visibility conditions using enhanced Flight vision systems (EFVS)” is intended for flight crews, and corresponds to the use of EFVS visual based technologies displayed in HUD or an equivalent display system. The objective is to provide operational credit in approach as permitted per EASA EU 965/2012 and its coming amendments (NPA 2018-06 AWO) to face to Low visibility conditions. Enabling EFVS operations with operational credits provides a greater availability of suitable destination and alternate aerodromes during periods of reduced visibility. This effectively reduces the number of weather-related delays, cancellations or diversions of flights to CAT II/III
N N
LSSIP Year 2019 United Kingdom - Level 1 142 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
aerodromes, permits shorter routings and reduced fuel costs, a faster return to scheduled operations, and less passenger inconveniences. A unique advantage of the EFVS on board solution is that it is mainly supported by the aircraft system instead of airports and the need of complex and costly ground infrastructures as those implemented in CATII/III airports. From a global ATM network standpoint, the EFVS operation allows to retain traffic at most of secondary aerodromes by providing operational credit at most of runway ends with precision or non-precision landing minima (LPV, LNAV/ VNAV, ILS CAT1,…). The operational credit provided by EFVS is particularly important regarding secondary aerodromes because they usually have CAT1 or higher than CAT 1 RVR ¿ DA/DH minima and are therefore potentially more frequently impacted by adverse weather conditions. In addition, EFVS capability is a key operational advantage more especially for the business aviation community that is mainly composed of small/ medium operators with limited resources and operating frequently at small/ medium airports. Beyond operational credit, the Vision Systems such as the EFVS improves situational awareness in all weather conditions for all operators at all airports contributing supporting decision-making and increasing safety margin all the time.
Advanced Air Traffic Services
#06
Controlled time of arrival (CTA) in medium-density/ medium-complexity environments
The CTA (Controlled Time of Arrival) is an ATM imposed time constraint on a defined point associated with an arrival runway, using airborne capabilities to improve arrival management. When a time constraint is needed for a flight, the ground system may calculate a CTA as part of the arrival management process, and then it may be proposed to the flight
N N
LSSIP Year 2019 United Kingdom - Level 1 143 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
for achievement by avionics within required accuracy. Airborne information may be used by the ground system in determining the CTA (e.g. ETA min/max) and in monitoring the implementation of the CTA.
#08
Arrival management into multiple airports
The system provides support to coordination of traffic flows into multiple airports to enable a smooth delivery to the runways. The 'Center Manager' (CMAN) which accompanies the AMANs of the airports generates a combined planning for several arrival streams into different airports by calculating the sequence of aircraft flying towards an area where their routes intersect. By imposing an adequate spacing of the aircraft in that area, a Time To Lose (TTL) for the appropriate upstream E-TMA sector is calculated to meet this constraint. Both AMAN-TTL for the runway and TTL for the E-TMA sector are superimposed and presented to the upstream en-route sector controllers.
N N
#10
Optimised route network using advanced RNP
Based on Advanced-RNP navigation specification, design of optimised routes e.g. spaced parallel routes, Fixed Radius Transition (FRT) and Tactical Parallel Offset (TPO) further enhanced by onboard performance monitoring and alerting and the execution of more predictable aircraft behaviour
N N
#11
Continuous descent operations (CDO) using point merge
Progressive implementation of procedures for Continuous Descent Operations (CDO) and Continuous Climb Operations (CCO) in higher density traffic or to higher levels, optimised for each airport arrival/departure procedure
N N
#105
Enhanced airborne collision avoidance system (ACAS) operations using the autoflight system
New altitude capture laws aim to reduce unnecessary ACAS alarms and reduce the risk of mid-air or near mid-air collisions between aircraft as a last-resort safety net, by automatically reducing the vertical rate at the approach of the selected flight level (only when a Traffic Advisories-TA occurs), leading to less traffic perturbation, while not increasing flight crew workload.
N N
LSSIP Year 2019 United Kingdom - Level 1 144 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
#107
Point merge in complex terminal airspace
This new procedure design builds upon precision navigation technology (P-RNAV concept) for merging traffic into a single entry point, which allows efficient integration and sequencing of inbound traffic together with Continuous Descent Approaches (CDA).
N N
#108
Arrival Management (AMAN) and Point Merge
Point Merge in high density environment and complex Extended TMA (E-TMA) sectors replaces radar vectoring with a more efficient and simplified traffic synchronisation mechanism that reduces communication workload and increases collective traffic predictability.
N N
#118
Basic EAP (Extended ATC Planning) function
The basic Extended ATC Planner aims at bridging the gap between Air Traffic Flow and Capacity Management (ATFCM) and Air Traffic Control (ATC) providing real-time and fine-tuning measures to solve ATFCM hotspots, and to perform early measures to alleviate complexity closest to ATC activities. The solution consists of an automated tool and associated procedures supporting the basic communication between the Local DCB position and the Controllers' Work Positions allowing the EAP and the ATC team in identifying, assessing and resolving local complexity situations. The basic EAP relies on a real time integrated process for managing the complexity of the traffic with capability to reduce traffic peaks through early implementation of fine-tuned solutions to solve workload imbalances at the local level, compatible with the short-term timeframe of execution phase of the flights.
N N
Optimised ATM Network Services
#57
User-driven prioritisation process (UDPP) departure
Airspace Users are allowed to change among themselves (via the pre-departure management process in CDM airports) the priority order of flights in the pre-departure sequence. The departure time will be automatically communicated/coordinated with the Network Management Function (NMF) via the DPI message as described in the A-CDM concept.
N N
LSSIP Year 2019 United Kingdom - Level 1 145 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
Enabling Aviation Infrastructure
#67
AOC data increasing trajectory prediction accuracy
Europe’s vision to achieve high-performing aviation by 2035 builds on the idea of trajectory-based operations – meaning that aircraft can fly their preferred trajectory while minimising constraints due to airspace and service configurations. SESAR has introduced an early version, which makes use of flight planning data sourced from airline operational control (AOC) to help controllers optimise aircraft flight paths. This solution represents an initial step towards the extended flight plan solution and flight and flow information for a collaborative environment (FF-ICE).
N N
#100
ACAS Ground Monitoring and Presentation System
The ACAS provides resolution advisories (RAs) to pilots in order to avoid collisions. Controllers rely on pilots to report RAs by radio as they occur in accordance with ICAO regulations. However these reports can come late, incomplete or are, absent in some instances. This solution consists of a set of monitoring stations and a server system, which enable the continuous monitoring and analysis of ACAS RAs and coordination messages between airborne units from the ground.
N N
#101 Extended hybrid surveillance
This solution consists of an enhanced TCAS capability, adding passive surveillance methods and reducing the need for active Mode-S interrogations. By making fewer active interrogations, this solution allows the aircraft to significantly reduce the usage of the 1090 MHz frequency.
N N
#102
Aeronautical mobile airport communi- cation system (AeroMACS)
The aeronautical mobile airport communication system (AeroMACS) offers a solution to offload the saturated VHF datalink communications in the airport environment and support new services. The technical solution AeroMACS is based on commercial 4G technology and uses the IEEE 802.16 (WiMAX) standard. Designed to operate in reserved (aeronautical) frequency bands, AeroMACS can be used for ANSPs, airspace users and airport authority communications, in compliance with SESAR’s future communication infrastructure (FCI) concept. AeroMACS is an international standard and supports
N N
LSSIP Year 2019 United Kingdom - Level 1 146 Released Issue
SESAR Solution
Code
SESAR Solution
Title Solution Description
Has the SESAR Solution been implemented in your State?
(Y-N) - if “Yes”
please report where
Are there implementation plans in your State for the
SESAR Solution? (Y-N-N/A)
- If “Yes” please report when and where
implementation is planned
- If “N/A” please provide justification
globally harmonised and available capabilities according to ICAO Global Air Navigation Plan (GANP).
#109
Air traffic services (ATS) datalink using Iris Precursor
The Iris Precursor offers a viable option for ATS datalink using existing satellite technology systems to support initial four-dimensional (i4D) datalink capability. The technology can be used to provide end-to-end air–ground communications for i4D operations, connecting aircraft and air traffic management ground systems.
N N
#110
ADS-B surveillance of aircraft in flight and on the surface
The SESAR solution consists of the ADS-B ground station and the surveillance data processing and distribution (SDPD) functionality. The solution also offers mitigation techniques against deliberate spoofing of the ground system by outside agents. These techniques can also be used to cope with malfunctioning of avionics equipment. SESAR has contributed to the relevant standards, such as EUROCAE technical specifications, incorporating new functionalities developed for the ADS-B ground station, ASTERIX interface specifications as well as to the SDPD specifications.
N N
#114 Composite Surveillance ADS-B / WAM
By allowing the use of ADS-B data that has been validated against data derived in parallel by a WAM system, the system can help to reduce the number of interrogations and number of replies and therefore reduce the 1030/1090 MHz RF load and improve spectrum efficiency. It achieves this through the integration of validated data items into the WAM channel, thereby preventing a need to re-interrogate the data item. Since the two surveillance layers share hardware components, the system offers improved cost efficiency. Furthermore, the use of the system contributes to an improved security by successfully mitigating associated ADS-B threats. SESAR has contributed to the relevant standards, such as EUROCAE technical specifications for WAM and ADS-B that are implementing this “composite” concept.
N N
LSSIP Year 2019 United Kingdom - Level 1 147 Released Issue
E. Military Organisations Infrastructure
This Annex is not produced in 2019. It will be updated every second year, therefore it will be produced as part of the LSSIP 2020 document. In case information is sought on military infrastructure, previous LSSIP may be made available upon request to the respective Focal Point and/or Contact Person.
LSSIP Year 2019 United Kingdom - Level 1 148 Released Issue
F. Glossary of abbreviations
This Annex mainly shows the abbreviations that are specific to the LSSIP Document for United Kingdom.
Other general abbreviations are in the Acronyms and Abbreviations document in:
https://www.eurocontrol.int/airial/
Term Description
ACAS Airborne Collision Avoidance System
AAIB Air Accident Investigation Branch (Level One only)
ACL Airport Co-ordination Limited (AOP11-EGLL/EGSS/FCM05)
ACP Airspace Change Proposal (ENV01-EGGD/ENV02-EGSS)
ADR All-purpose Data-stream Replicators (ITY-SPI)
AIM Aeronautical Information Management (ITY-ADQ)
ANO Air Navigation Order (ATC16)
ANSP Air Navigation Service Provider (Various)
AODB Airport Operational Database (AOP05-EGCC/EGKK/EGSS)
APOC Airports Operations Centre (AOP11-EGSS)
ASBU Aviation System Block Upgrade (Level One only)
BAATL Birmingham Airport Air Traffic Ltd (Various-EGBB)
CCD Continuous Climb Departures (ENV01-EGPH/ENV02-EGPH)
CMG Consumer and Markets Group (Level One only)
DAATM Defence Airspace and Air Traffic Management (AOM19.1)
DfT Department for Transport (ENV02-EGLL & Level One)
DGCA Director General, Civil Aviation (Level One only)
EAL Edinburgh Airport Limited (Various-EGPH)
EAMS Extended Air Messaging System (Mil-EAMS) (INF04)
EDDUS Electronic Data Display Update Systems (ITY-FMTP)
FAS Future Airspace Strategy (ENV01-EGGW/FCM01/NAV10)
FASIIG FAS Industry Implementation Group (AOP05-EGSS, ENV01-EGPF and Level One)
FMARS Future Military Area Radar Services (ATC02.2)
GAL Gatwick Airport Limited (Various-EGKK)
GIP Global Infrastructure Partners (Level One Only)
GLA Glasgow Airport Limited (Various-EGPF)
iFACTS interim Future Area Control Tools Support (ATC12.1)
iTEC interoperability Through European Collaboration (Various)
JANSC Joint Air Navigation Services Council (Level One only)
LAMP London Airspace Management Programme (ENV01-EGGW/ENV0-EGSS/NAV03)
LARA Local and Regional Airspace (AOM19.1/AOM19.2/AOM19.3)
LSSIP Year 2019 United Kingdom - Level 1 149 Released Issue
Term Description
MAG Manchester Airports Group (AOP05/AOP11-EGSS)
MoD Ministry of Defence (Various)
NATMAC National Air Traffic Management Advisory Committee (Level One only)
NATS National Air Traffic Services (various)
NERL NATS En-Route Limited (various)
NSL NATS Services Limited (ITY-SPI)
OCA Oceanic Control Area (Level One only)
OTP On Time Performance (AOP05-EGKK)
PC Prestwick Centre (AOM21.2)
PLAS Prestwick Lower Airspace Systemisation (Level 1 Projects)
RIMCAS Runway Incursion Monitoring and Conflict Alert System (Various Airports)
RPAS Remotely Piloted Aircraft Systems (Level One only)
RPG Regulatory Policy Group (Level One only)
SARG Safety and Airspace Regulation Group (ATC15)
TLPD Traffic Load Prediction Device (FCM04.2/FCM06)
TSAT Target Start Approval Time (AOP05-EGCC/EGKK/EGLL)
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