Galileo 4-2017, EGNSS Awareness Raising and Capacity Building
EGNSS PROFESSIONAL MARKET APPLICATIONS...
Transcript of EGNSS PROFESSIONAL MARKET APPLICATIONS...
EGNSS PROFESSIONAL MARKET APPLICATIONS
MAPPING AND SURVEYING, AGRICULTURE, TIMING & SYNCHRONISATION
Alina Hriscu
Market Development Innovation Officer
5 October 2016
The 2017 H2020 Call for applications promotes the
EGNSS use for Professional Market Applications
http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/galileo-3-2017.html
• Expected Impact:• Improve the productivity and decrease the
environmental impact (agriculture)
• Development of highly innovative applications taking
advantage of EGNSS added value
• To contribute to coping with emerging network and
synchronisation needs (accuracy, robustness)
• Opening date: 8th November 2016
• Deadline 1st March 2017
• 8 €mln budget
• Scope:
Developing new innovative applications,
building also on the EGNSS differentiators
in combination with Earth Observation and
Copernicus services, with commercial
impact.
• Areas: • Agriculture
• Surveying and Mapping
• Timing & Synchronisation
• Other Professional Applications
Professional Market Applications
Professional Market Applications
Mapping and Surveying
AgricultureTiming &
SynchronisationOther Professional
Applications
Expected Impact:
Improve the
productivity and
decrease the
environmental impact
Expected Impact:
Development of highly
innovative applications
taking advantage of
EGNSS added value
Expected Impact:
Contribute to coping
with emerging
network and
synchronisation
needs (accuracy,
robustness)
Expected Impact:
Development of highly
innovative applications
taking advantage of
EGNSS added value
EGNOS and Galileo applications for Mapping and Surveying
Mapping Surveying
Meter level accuracy Centimetre level accuracy
Utility management Assets management GIS mapping Forestry and park
management
Cadastral surveying Construction surveyingMining surveyingMarine surveying
Trends and Prospects in Surveying and Mapping
Trends and Prospects• Significant improvements in High-Accuracy solutions (e.g. multi-
constellation, multi-frequency)
• RTK established as preferred solution
• Increased uptake of PPP
• Most receivers SBAS/EGNOS enabled
• Reduction of GNSS receivers prices transforming mapping into
more accessible activity
• Users tend to use consumer-grade handheld devices such as
smartphones or tablets in connection with professional/GIS grade
receivers
• New professional users in environmental and engineering
disciplines, together with GIS communities, are fostering the use of
geo-information and the development of new applications
• Integration of GNSS with other complementary technologies
(LiDAR, laser scanners, Remote Sensing, Earth Observation -
Copernicus, and robotics)
• UAV (drones) uptake
Choice for 2nd and 3rd frequency
E6 ranging
The 3rd frequency for high accuracy applications (e.g. worldwide PPP):
High quality open signal (modulation, chip rate) Best frequency for tri-laning Multiple signals bring greater reliability and accuracy
E6b is unencrypted
Best option for tri-laning
6
* References:
• Stansell Munich Summit 2015 / IGC workshop Krasnoyarsk 2015
• Hatch ION GNSS 2006
• Humphreys et al. IGS workshop 2008
Clearly, the obvious choice for the future 2nd frequency is L5/E5, because it is:
A protected frequency
Shared by all GNSS
And all SBAS
More widely separated from L1, thus minimising the iono-free linear combination errors
Specific key advantages of L5/E5 signal• Better multipath mitigation and better
accuracy using L5/E5 signals vs using L2 • Higher received power for L5/E5 vs L2C
Areas of interest for GNSS Research in Mapping and
Surveying
Multi-GNSS
Multi-frequency receivers
Open Service Navigation Message
Authentication
OS-NMA
Unmanned
Aerial Vehicles
GNSS with additional sensors for enhanced
capabilities
Commercial Service
High Accuracy
CS-HA
Operation in harsh
environment
Commercial Service
Authentication
CS-Auth
PPP
Multiple-frequencies
E1, E5 and E6
Galileo specific signal modulation,
e.g. AltBOC
High precision and authentication services that will be provided by Galileo,
i.e. in the frame of the commercial service
Fusion with other cutting-edge technologies
EGNOS and Galileo applications for Agriculture
Meter level accuracy;
decimetre level pass-
to-pass accuracy
Centimetre level accuracy
Farm machinery guidance Automatic steering Asset management Variable rate application Yield monitoring Biomass monitoring Soil condition monitoring Field delineation
Variable rate applications Tractor guidance for
operations, e.g. spraying Virtual fencing Post-harvest pick-up Field boundary mapping (CAP) Individual livestock positioning
and supervised tracking Geo-traceability
Trends and Prospects in Agriculture
Trends and Prospects
• The uptake of precision agriculture worldwide continues to grow, thanks to the benefits provided to farmers in terms of increased productivity
• RTK established as preferred solution
• Increased uptake of PPP
• Most receivers SBAS/EGNOS enabled
• More demanding users are driving the evolution of precision agriculture towards all-around farm management solutions
• Uptake of usage of drones in precision farming
• GNSS supports the agri-environmental policies on both a regional and global scale
• Synergies with Earth Observation (Copernicus)
Areas of interest for GNSS Research in Agriculture
Multi-GNSS
Multi-frequency receivers
Unmanned
Aerial Vehicles
GNSS with addition
sensors for enhanced
capabilities
Commercial Service
High Accuracy
CS-HA
Synergies with Earth
Observation (Copernicus)
Integrated Farm Management
System
PPP
Multiple-frequencies
E1, E5 and E6Galileo specific
signal modulation, e.g. AltBOC
High precision that will be provided by Galileo, i.e. in the
frame of the commercial service
Fusion with other data, such as from Earth Observation satellites or other in-situ sensors
Galileo applications for Timing and Synchronisation
Timing Synchronisation
Synchronise receivers at different locations using GNSS reference time
Master clock synchronises itself using the time provided by GNSS and redistributes it to slave clocks
Direct and accurate access to Coordinated Universal Time (UTC)
TIMING AND SYNCHRONISATION
Trends and Prospects in Timing & Synchronisation
Trends and Prospects
• Precise Time and Synchronisation is crucial to Critical Infrastructure (CI)
• Main driver of the T&S segment is Telecommunication (90% of overall GNSS devices)
• Finance is a mature market, with on-going research for optimising PTP (Precise Time Protocol)
• GNSS penetration is expected to reach 10% in 2017, along with the upgrade of Energy network
• The GNSS installed base in EU+Norway should reach 276,000 units in 2020.
TIMING AND
SYNCH.
E-GNSS benefits for Timing & Synchronisation
European GNSS can bring improved resilience to Timing & Synchronisation
operations.