5 Failure costs - Causes Inefficienties Failure costs/rework
Quality issues More Stakeholders More legislation More complexity
More dynamic New contract types (D&C, DB(F)M )
Slide 6
6 Failure Costs Causes? Bron: USP Marketing Consultancy, april
2011. Projects have become unmanageable due to the lack of an
appropriate information management. Causes failure Costs
Coordination errors65% Bad pre-construction preparation62% Lack of
communication52% 20012005200820102011 Failure Costs [%] 7,710,311,4
10,1
Slide 7
7 Market needs to reduce Failure costs Plan Align all
Stakeholders Prevent litigation A consistent Brief Design Define
and clarify the scope Manage design conflicts and changes A
compliant Design Build Reduce risks and interface issues Deliver on
time within budget Manage all changes and deviations in a
transparent manner Maintain Traceability to original requirements
As-built with up to date information Save time
Slide 8
8 How did we try? 2004 2007 2008 Relatics Systems Engineering
3D- Engineering 2010 3D- Visualisation 2012 Integrated Project
approach BIM iBIM BIM Connectors CAD Tools + Developments 2014
Slide 9
9 Services vs. Tooling -Project services (content) -Part of the
project team -Expert designers, modelers, coordinators, -Project
INdependent -Temporary -Specialized iBIM Tools -Expert Integration
Consultants
Slide 10
10 What is the relation between SE & BIM? Building
Information Modeling (BIM) is a digital representation of physical
and functional characteristics of a facility. A BIM is a shared
knowledge resource for information about a facility forming a
reliable basis for decisions during its life-cycle; defined as
existing from earliest conception to demolition. A basic premise of
BIM is collaboration by different stakeholders at different phases
of the life-cycle of a facility to insert, extract, update or
modify information in the BIM. (Cfr. NBIMS - The National Building
Information Model Standard Project Committee) Systems Engineering
(SE) is an interdisciplinary approach to enable the realization of
successful systems in complex engineering projects. It focuses on
defining customer needs and requirement management early in the
development cycle. SE deals with work-processes tools to manage
risks by documenting requirements, followed by system design and
validation, while considering the complete project, over the entire
life cycle. SE integrates all disciplines and specialty groups into
a team effort forming a structured development process that
proceeds from concept to production to operation. (Cfr. INCOSE -
The International Council on Systems Engineering)
Slide 11
11 What is the relation between SE & BIM? Building
Information Modeling (BIM) is a digital representation of physical
and functional characteristics of a facility. A BIM is a shared
knowledge resource for information about a facility forming a
reliable basis for decisions during its life-cycle; defined as
existing from earliest conception to demolition. A basic premise of
BIM is collaboration by different stakeholders at different phases
of the life-cycle of a facility to insert, extract, update or
modify information in the BIM. (Cfr. NBIMS - The National Building
Information Model Standard Project Committee) Systems Engineering
(SE) is an interdisciplinary approach to enable the realization of
successful systems in complex engineering projects. It focuses on
defining customer needs and requirement management early in the
development cycle. SE deals with work-processes tools to manage
risks by documenting requirements, followed by system design and
validation, while considering the complete project, over the entire
life cycle. SE integrates all disciplines and specialty groups into
a team effort forming a structured development process that
proceeds from concept to production to operation. (Cfr. INCOSE -
The International Council on Systems Engineering)
Slide 12
12 What is the relation between SE & BIM? SE GWW-sector
(infrastructure) cradle to cradle rather project managers risk
management # failure costs process relational textual database
software BIM B&U-sector (Buildings) design to as-built? rather
designers design integration # clashes product virtual geometrical
CAD software PROJECT SECTOR PHASE FUNCTION PROFILE GOAL MEASURE
FOCUS MODEL INFORMATION SOFTWARE
Slide 13
13 What is the relation between SE & BIM? SE GWW-sector
(infrastructure) cradle to cradle rather project managers risk
management # failure costs process relational textual database
software BIM B&U-sector (Buildings) design to as-built? rather
designers design integration # clashes product virtual geometrical
CAD software BRAIN
Slide 14
14 What is the relation between SE & BIM? Left half
analysis logical, to know organisation reality detail speaking
language patterns and relations tijd certainty Right half synthesis
intuitive, to feel imagination conceptual a whole Visual language
Spatial reason 3D images Opportunities & risks BRAIN
Slide 15
15 What is the relation between SE & BIM? SE 3D Goal
Functie Eis specificatie Solution CAD-Object Property performance ?
Function Requirement specification
Slide 16
16 3D SE Solution Goal Verification Validation THIS is the
relation between SE & BIM? Function Requirement specification
SE-ObjectCAD-Object Property performance BIM
Slide 17
17 Failure Costs - Solution SE think in systems, work with a
systematic approach Processes for YOUR Project Apropriate Tools
(Relatics) Train, Coach & Guide 3D-design integration in a
Building Information Model BIM Management Plan CAD Tools for your
needs Train, Coach & Guide Change Management!!!
Slide 18
18 Systems Engineering WHAT? TOP-DOWN developments
Slide 19
19 Systems Engineering WHAT?
Slide 20
20 Systems Engineering Tool WBS FBSOBS RBS SBS Information
management during complex projects = Managing thousands
relations
Slide 21
21 Systems Engineering Relatics A semantic structure to store
data Element: Requirement, risk, person, verification, etc.
Property: Describes the element Relation: Structures the elements
and defines context Person - Name - Mobile - E-mail Activity - Name
- description - Startdate - Enddate Product - Name - Description -
Status -... Is responsible for... Has result Is owner of
Slide 22
22 Systems Engineering Relatics Organisational Meetings &
Decisions REQ. Mgmt V&V Mgmt Risk Mgmt System & Activity
Mgmt DMS
Slide 23
23 Systems Engineering Relatics
Slide 24
24 Instant output of reports, lists, etc. Risk-file Change- and
deviation register Action lists Output specification Object
specifications Interface Mgmt Transmittals Systems Engineering
Relatics
Slide 25
25 BIM WHAT? 1 Software application? 1 work methodology? For
everyone? -> BIM = 3D-modeling? Waarvoor staat BIM???
Slide 26
26 3D- Discipline Models Road/Rail StructuresM&EOthers
Responsibility Execution manager Design & Eng. manager HSE
Coordinator Discipline derived documents CMDB Aggregated 3D Model
2D Drawings Generated from 3D (discipline) models Clash reports
Setout data Visualisations BIM WHAT?
Slide 27
27 BIM - Tools Civil 3D Revit Revit MEPOthers Glue Navisworks
Consistent and ontological content Relatics The Modus Flexline
33 iBIM from Cradle to Cradle Vision: The SE BIM Database
serves as a guideline during the entire life cycle Concept phase
Preliminary design Detailed design ConstructionMaintenance &
Operate SE BIM Database
Slide 34
34 iBIM Connectors BIM Connector = Window on the BIM Database
Objecttree Similar like in the SE- database Views inhoud conform
Relatics Views content conform SE- Database CAD-Names conform the
CAD- application All relevant information about the object youre
designing
Slide 35
35 iBIM Connectors BIM Connector = communicatietool My relevant
news: new documents, objects, req. My Logbook; changemanagement,
decisions,... Redlining using digital i- posts Logbook iPost
Slide 36
36 iBIM in de praktijk PLAN Align all Stakeholders Generate a
consistent OS Communicate centrally Outputspecificatie E0522 -
Beun
Slide 37
37 iBIM in de praktijk DESIGN Define the Scope Prevent Design
errors and Clashes Get everyone on the same page Obtain a compliant
Design
Slide 38
38 iBIM in de praktijk DESIGN Define the Scope Perform a
profound Requirement Analysis Describe the Scope in Relatics
Slide 39
39 iBIM in de praktijk DESIGN Access the relevant design
information directly in your CAD system
Slide 40
40 iBIM in de praktijk DESIGN Verify your design to the
requirements directly in your CAD system with up to date
information Ensure Compliance!
Slide 41
41 iBIM in de praktijk DESIGN Enrich your 3D model instantly
using Information from Relatics Store & Share the results in
Relatics COLLABORATION
Slide 42
42 Reduce Risks & failure Costs Respect Time and Budget
Manage WP & Payment Products Improve pre-construction
preparation iBIM in de praktijk BUILD
Slide 43
43 iBIM in de praktijk BUILD Manage the core-processes using
Relatics Compliance Risks Changes & Deviations
Slide 44
44 iBIM in de praktijk BUILD Interface Mgmt Pro-active vs
Re-active Report in Relatics
Slide 45
45 Actie Management (Kanban) iBIM in de praktijk BUILD
Slide 46
46 Configuratie Management + Baselining iBIM in de praktijk
BUILD
Slide 47
47 iBIM in de praktijk Maintain Manage your Assets Monitor
& Plan Maintenance Trace original Requirements & Decisions
Optimize your Costs & Time Enable knowledge transfer