Événement BIM 2009 : Interopérabilité 3D en ingénierie

Événement BIM 2009 Interopérabilité 3D en ingénierie Québec, le 17 février 2009 Montréal, le 18 février 2009

Programme 8h00 Accueil et inscription 8h45 Mot de bienvenue 9h00 Conférence Autodesk : Positionnement actuel et tendances de l’approche BIM 9h45 Démonstration de composantes BIM dans un contexte de bâtiment 10h25 Pause-café 10h45 Démonstration de composantes BIM dans un contexte de bâtiment (suite) 11h45 Dîner-conférence : Les tendances mondiales dans l’interopérabilité 3D

Programme (suite) 13h15 Conférence et démonstration : L’échange de modèles de données 3D et le BIM avec le logiciel FME 14h15 Témoignage : Teknika HBA et le BIM 14h45 Pause-café 15h00 Témoignage : Technyx (Groupe Canam) et le BIM 15h30 Témoignage : Vision du BIM et stratégie d’implantation chez Travaux Publics Canada 16h00 Conclusion et synthèse

Merci à nos partenaires et collaborateurs!

Présentation de Consortech • 20 ans d’expérience en intégration de solution technologiques • 8 ans en tant que partenaire-expert Autodesk pour: • Le génie civil • Le génie des structures • La gestion des infrastructures • L’intégration 3D • La géomatique • 10 ans en tant que partenaire Safe Software • Expertise en bases de données Oracle Spatial

Expertise BIM • Expertise reconnue de longue date en logiciels de génie civil • Formation et soutien de plus de 400 utilisateurs Civil 3D en 4 ans • Développement de solutions « québéquisées » sur Civil 3D • Depuis plus d’un an certification en logiciels de structure • Premier et unique revendeur canadien certifié pour le logiciel d’analyse 3D Autodesk Robot • Implication auprès d’Autodesk dans le développement de solutions pour les ouvrages d’arts basées sur Revit Structure • Équipe de développement interne pour une réponse aux besoins spécifiques • Alliance avec un partenaire de choix pour une couverture complète du BIM • PROCAD pour la mécanique du bâtiment • et l’architecture

Offre de services BIM • En plus de la vente des logiciels de nos fournisseurs partenaires, nous offrons des services pour: • Analyse des processus d’affaires • Préparation de plan d’implantation • Recommandations techniques • Démarrage de projets • Formation générale et spécialisée • Coaching et soutien technique

Schéma du BIM

Schéma du BIM avec Autodesk

Le BIM en génie des structures de bâtiment

Le BIM en génie des structures de bâtiment chez Autodesk

Le BIM en génie des structures d’ouvrages d’art

Le BIM en génie des structures d’ouvrages d’art chez Autodesk + Extension Bridge

Conférence Le BIM et le secteur de la construction Par Caesar Ruest Directeur du développement des affaires BIM au Canada Autodesk

Caesar Ruest BIM Solutions Executive National Trends for Building Information Modeling and Construction Image of CHUM, Montreal. Hospital Program designed in BIM

Agenda BIM Update Large U.S. Contractors “get it” Documents and Resources Canadian examples (too many to show in 30minutes) Q&A

Industry Trends BIM Building Information Modeling (BIM) – “The creation and use of … blah blah blah… ’Gotta get me some of that BIM!”

Building Information Modeling Integrated digital process that allows professionals to OWNERS Create coordinated information and documentation Predict performance, BUILDING appearance and cost BUILDERS INFORMATION ARCHITECTS MODELING Deliver the project more economically and with reduced environmental impact. CIVIL ENGINEERS MEP SYSTEMS ENGINEERS STRUCTURAL ENGINEERS

Building Information Modeling BIM means change for all - Owners, Consultants, and Builders Changes in ways of working Changes in staffing needs Changes in project organization

Real World Prediction and Visualization

Case Study – Collaborative Modeling Turner Construction, Northern Kentucky University Arena Project Description • Northern Kentucky University Arena • $60m, 18 month construction “No time for experiments” • None of the MEP Subcontractors had worked in 3D before • Architect was paid to create model and was also involved in coordination efforts

Case Study – Collaborative Modeling Turner Construction, Northern Kentucky University Arena Project Tools and Process • Many 3D software systems involved in project • Navisworks used to create a composited model • Hyper linking was used to make application data visible in Navisworks • Created a handbook, held kick off meeting, and identified charter for project to get buy-in of all participants

Case Study – Collaborative Modeling Turner Construction, Northern Kentucky University Arena Project Results • Near zero coordination issues in the field • Risk avoidance: Traditional process: 2% constructability related change orders BIM: zero constructability related change orders so far • Reactions of the design team and the subcontractors: Week 1 – This will never work! Week 3 – The system is working! Week 5 – Where can we buy Navisworks? Week 7 – Can we do more projects with you?

Digital Fabrication Courtesy of East Coast Fabrication

Resources for Download Documents Website References

BIM Drivers for Integrated Projects www.aia.org • Fully Collaborative • Highly Integrated • Productive teams that include all the stakeholders in the project’s lifecycle

CURT Whitepaper on A/E Productivity • Owner Leadership • Integrated Project Structure • Open Information Sharing • Virtual Building Models

Revit Architecture Structure MEP Canada

Successful Tips for Transition Select progressive individuals Budget for much smaller who understand the big picture teams – documentation effort is reduced Select evangelists for BIM Smaller teams (3-5 people) encourage agility and sets Put your best building expectations. designers and architects on the project – NOT your best CAD operators Organize your project team around functions; content creation, building design, documentation, etc…

Canadian municipalities unveil extensive list of ‘shovel ready’ infrastructure projects

BIM Executive Group BIM Executive Group now includes 18 Partners 4 Structural Engineers 2 MEP Engineers 12 Architects 3 conference calls completed to date since September A forum to discuss BIM’s effect on business and practice Requirement – must be a partner in a Revit office

Bank of Montréal Rehabilitation Project

2 Montreal Super Hospital Projects Background 1.MUHC (McGill University Hospital Campus) is a $1.6 billion Redevelopment Project • 2 project sites will be LEED®-registered • RFP stated the project delivery to be in BIM, and BIM should be compatible with Revit. 2.CHUM (Centre hospitalier de l'université de Montréal) • $1.5 billion Redevelopment Project • RFP stated the project delivery to be in BIM, and BIM should be compatible with Revit. •The CHUM Design Program was finished in Revit BIM and will be included in the Performance Specification as a DWF model to each fact of the bidders. It will help the bidders better understand the scope of work.

2 Montreal Super Hospital Projects Background •CHQ (Corporation d'hébergement du Québec) – owns, invests, and supports Health and Social institutions for the province of Quebec – They are now pro-BIM •The consortia has 2 groups bidding on each project •The winners will be responsible for maintaining the health complex for the next 30+ years •Of the 2 groups, strategic professionals include: SNC Lavalin IBI Group, HDR Architecture Canada, HKS inc., Johnson Controls

MUHC Glen Campus MUHC Mountain Campus

CHUM Project

Renderings and Perspectives It is important that the Successful Respondent ensures that they incorporate a three-dimensional Building Information Modeling (BIM)

VizTechnology_05-12-08.wmv Post Construction Services Submission of the integrated ‘as-built’ BIM on an editable, native platform: .dgn or RVT Submission of the integrated ‘as-built’ BIM on Navisworks Manage

BIM events hosted by Architects and Engineers which are not Autodesk driven, most often have Revit as the main topic.

RAIC – Royal Architectural Institute of Canada

BIM for Engineering and Construction Event A Canadian Learning Session - 2009 Agenda Topics Proposed Cities Architect’s Expectations 1. Vancouver 2. Edmonton Delivery expectations for 3. Calgary MEP and S in BIM 4. Winnipeg Builders value in BIM 5. Toronto Engineering analysis 6. Ottawa Integrated Project 7. Montreal Delivery 8. Halifax New Contract types Billing for BIM Offices

Vancouver Convention Centre Looking Back: 2004 discussions with Partner Started on Revit 7, finished on Revit 8 Construction Photos June 2008

Search for Kenaidan

Shaw Auditorium File-to-Factory-to-Field & On Site Coordination

“Feature Factory” (Toronto) •Manufacturer of interior •Digital Shop Drawings •Interoperability Shaw Auditorium File-to-Factory-to-Field & On Site Coordination

Leveraging BIM now AEC Coordination • HIP Architects • Stantec MEP • Ellis Don • Cox Mechanical • Cox Electrical Shaw Auditorium File-to-Factory-to-Field & On Site Coordination

Leveraging BIM now AEC Coordination • HIP Architects • Stantec MEP • Ellis Don • Cox Mechanical • Cox Electrical Shaw Auditorium File-to-Factory-to- Field & On Site Coordination

Leveraging BIM now AEC Coordination • HIP Architects • Stantec MEP • Ellis Don • Cox Mechanical • Cox Electrical Shaw Auditorium File-to-Factory-Field & On Site Coordination

Leveraging BIM now Shaw Auditorium File-to-Factory-Field & On Site Coordination

The Bow – Encana Tower Calgary

AU_Panama.wmv VizTechnology_05-12-08.wmv Caesar Ruest Autodesk BIM Solutions Executive caesar.ruest@autodesk.com Toronto, Canada

Démonstration Les composantes du BIM dans un contexte de bâtiment Par Marie-Pierre Lebel, ing. jr Spécialiste d’applications Solutions Consortech Inc.

Pause-café

Démonstration Les composantes du BIM dans un contexte de bâtiment (suite) Par Marie-Pierre Lebel, ing. jr Rémy Pelletier Spécialiste d’applications Directeur des opérations Solutions Consortech Inc. Solutions Consortech Inc. Vincent Cadoret Spécialiste d’applications MEP ProCAD Consultants

Dîner-conférence Le BIM au cœur des transformations de l’industrie Par Kimon G. Onuma Président Onuma Inc. Membre du conseil d’administration du buildingSMART alliance

Building Information Modeling Transforming the Industry NOW Kimon Onuma, FAIA - ONUMA, Inc. Board of Direction - buildingSMARTalliance ©ONUMA.com

National Institute of Building Sciences A.1974 - Public Law 93-383, Sect. 809 – Bridge between Private and Public Construction – Non-governmental – Unique 501c3 Organization – Unique in that it represents all disciplines in industry • Architects, Engineers, Contractors, Insurers, Unions, Manufacturers, Legal, Housing, Vendors, Owners, Consumers, State & Federal Government, Codes & Standards, and Testing – buildingSMART alliance is a council of the Institute – Formerly International Alliance for interoperability – • North America Chapter B.NIBS Related Products – – Construction Criteria Base – Whole Building Design Guide – National CAD Standard – National BIM Standard – An Authoritative Source of Innovative Solutions for the Built Environment © 2009 NIBS

Shaping The Business Case Each Year • 5 Billion SF of New Construction • 5 Billion SF of Renovation • 1.75 Billion of Demolition • NIST in 2004 identified $15.8B lost to lack of interoperability • CII/LCI - $1.288 trillion US ($4.8 trillion Worldwide) D&C industry with possible 57% waste 26% Manuf.) – Even at 31% U.S. is no longer the worlds largest waste it equals $400B annually consumer…but we did not slow • Facilities consume 40% of our energy down, by 2035 - 75% of the built • 65.2% of total U.S. elec. consumption environment in the US will be either • Facilities contribute 40% of the emissions new or renovated • Facilities contribute 20% of land fills • 40% of global raw materials are consumed by buildings – 75% by all facilities We must act now Source: AIA-Architects and Climate Change © 2009 NIBS

The Owners View A.Our industry is an impediment to the owner attaining product delivery B.Any time we spend is taking away from their bottom line / profit C.We don’t communicate well – 90% can’t read drawings – Typically includes owner © 2009 NIBS

Building Electronically First Photo courtesy of Dennis R. Shelden, Ph.D., Chief Technology Officer, Gehry Technologies. The picture is of the Disney Conference Hall, designed by Frank Gehry. © 2009 NIBS

Far More Than Visualization Ceiling Integration – Disney Concert Hall by Frank Gehry Photo courtesy of Dennis R. Shelden, Ph.D., Chief Technology Officer, Gehry Technologies. The picture is of the Disney Conference Hall, designed by Frank Gehry. © 2009 NIBS

Key Distinctions 1.Building Information Model – A digital representation of physical and functional characteristics of a facility. As such it serves as a shared knowledge resource for information about a facility forming a reliable basis for decisions during its life-cycle from inception onward. 2.Building Information Modeling – How one uses the information model to support collaboration by different stakeholders at different phases of the life cycle of a facility to insert, extract, update or modify information in the BIM process to support and reflect the roles of that stakeholder. 3.buildingSMART alliance – The North American chapter of an international organization with the mission to improve all aspects of the facility and infrastructure lifecycle by promoting collaboration, technology, integrated practices, and open standards. © 2009 NIBS

What is a Building Information Model? A.National BIM Standard Definition of BIM – 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 process to support and reflect the roles of that stakeholder. The BIM is a shared digital representation founded on open standards for interoperability. © 2009 NIBS

A: Rolling Up Information Theatre / World Country Installation / Region OGC ® State / Province Natural Asset County Air / Space City Underground IAI-IFC Usage Site Water / Sea Real Property Asset Land / Parcel Facility / Built Building System Sub-Systems Space Components Level Overlay Room Structure System Sub-Systems Space Components Level Overlay Room Linear Structure Node Segment © 2009 NIBS

B: Lifecycle Information View Laws and regulations CAD software -Building regulations -Drawings, calculations -Building specifications -Architect, engineer,… Knowledge databases VRML -Best practise knowledge -Visualisation, 3D models -Own practice Simulations -Comfort Briefing -Ventilation, heating -Functional req. -Life cycle cost -Estimates -Light, sound -Conditions -Insulation Building -Requirements -Fire, usage -Environment -Life time predictions Information Demolition, refurbishment -Rebuild -Demolition -Restoration Model Facility management -Letting, sale, operations -Maintenance Specifications -Guaranties -Specification sheets -Classification standards Construction management -Estimates, accounting -Scheduling Procurement -Logistics, 4D -Product databases -Price databases © 2009 NIBS

Information Based Design and Construction Geospatial Fabrication Data Product Selection Invoicing/P Computerized ayment Maintenance Management Ordering/ System (CMMS) Delivery Planning Design Construction Operations Sustainment Geospatial Legal Code Compliance Checking Data Data Computer Aided Engineering Facility Management Analysis Photo courtesy of Dennis R. Shelden, Ph.D., Chief Technology Officer, Gehry Technologies. The picture is of the Disney Conference Hall, designed by Frank Gehry. © 2009 NIBS

Rethinking Position 1. Planning, Design, Operations and Maintenance are only 5% of the cost of a facility. 95% of the cost is the people or function that occupy the space. 2. A productivity improvement of 3.8% pays for the entire facility! Should include workers health. 3. The designer has the ability to improve productivity from 5% - 30%!! © 2009 NIBS

Project Delivery Selection Stage What is a BIM? - Business Model Procurement Stage Execution Stage Design Stage Construction Documents Stage Conception Stage Utilization Closure Stage Stage Optimized approach with virtual modeling and analysis with reduced change orders dodelivery maintenance Typical approach failing to & routine time and lower operatingsavings we are currently and more often andThe and sustainment costs having to replace items earlier Dollars Expended on Facility Typical design/build approach with required experiencing with faster delivery maintenance and fewer change orders The yet untapped $avings 2yr 100+ Years 1Yr Courtesy of DKS Information Consulting, LLC © 2009 NIBS

Responsibility = Fee 1.Architects have shed responsibility due to liability concerns – with that they have lost fee 2.BIM can reduce liability 3.Question is can we 4. regain responsibility? © 2009 NIBS

Fear of Marginalization 1.Independent architects could be a thing of the past – Need to take more active role in life cycle 2.Design-build firms best poised for BIM 3.Change culture to share 4. information available 4.What does contractor need? 5.What does owner need? 6.What does first 1. responder need? © 2009 NIBS

Starting a BIM is Easy Simply make a decision to do so, whether new or existing – hold onto information in an organized way. Simple Mass Defining Total Square Footage Mass With Rough Outline Defining Total Square Footage Mass Accurate Outline Defining Total Square Footage Maturing Model Identifying Spaces and All Details © 2009 NIBS

Strategic Planning Building Information Modeling A Strategic Implementation Guide For Architects, Engineers, Constructors and Real Estate Asset Managers By Dana K. Smith and Michael Tardif Can be pre-ordered on Amazon – April release 1. Written for the decision maker 2. Understand the important issues for success 3. Explores the reasons for and possibilities of BIM 4. Builds the business case for BIM 5. BuildingSMART and NBIMS based © 2009 NIBS

Standard: NBIMS V1 P1 A.Delivered Dec 27, 2007 B.International Core C.National Specific – OmniClass D.Information Exchange Concepts E.Standard Development Process F.Information Assurance G.Capability Maturity Model H.References and Appendices I. Over 30 contributors 380,000+ Downloads © 2009 NIBS

Business Case: Crate&Barrel What We Have Seen From BIM A/Es 1. 2001 2. 24 Weeks for Associate Architects to produce 250 sheets of Contract Documents with a three person team. Thirty-Somethings. 3. 2007 3. 8 Weeks for Associate Architects to produce 300 sheets of Contract Documents with a 1.5 person team. Twenty-Somethings © 2009 NIBS

Business Case: Time is Money Design Design GC Bids GC Construction Field Changes Reviews Awd 18 3 4 2 55 4 Conventional Design/Bid/Build (80+ weeks, 60 Weeks if fast tracked) tracked) Design Construction Field Changes 12 48 1 Conventional Design/Build (60+ weeks, 50 Weeks if fast tracked) Design Construction Field Changes 38 0 10-12 3D Collaborative Design/Build (48 weeks, 38 Weeks if fast tracked) General Motors Flint Engine 500,000 SF Plant addition © 2009 NIBS

Business Case: Letterman Digital Arts Center 1. “Despite numerous design layout changes that were required by Lucas Film Ltd. due to company restructuring, the LDAC project was completed on time and below the estimated budget….over two hundred design and construction conflicts were identified, most of which were corrected before construction, resulting in an 2. estimated savings of over 3. $10 million on this $350 4. million project.” Courtesy of AECbytes \"Building the Future\" Article (September 30, 2006) Building Owners Driving BIM: The \"Letterman Digital Arts Center\" StoryMieczyslaw (Mitch) Boryslawski, Associate AIA Founder, View By View, Inc. © 2009 NIBS

Business Case: Culture Change at GM – Save 25% General Motors Flint Engine Plant addition 3D modeling used to design plant in the computer, then to fabricate, computer model was forced to be the as-built model Slide courtesy of C. Eastman and Matt Cramer © 2009 NIBS

The Alliance 1. Vision 2. A global environment where all participants can readily and transparently share, apply and maintain information about facilities and infrastructure to enhance quality and economy of design, construction, operation and maintenance 3. Mission 2. Improve all aspects of the facility and infrastructure lifecycle by promoting collaboration, technology, integrated practices, and open standards © 2009 NIBS

Strategic Plan 1.Goals 2. Create a strong industry presence 3. Connect major participants of the building industry in a stakeholder activity model 3. Implement and support coordination of candidate open standards and guidance 4. Develop a consensus infrastructure to advance open industry standards for interoperability and collaboration © 2009 NIBS

Member Benefits 1. Participation in bSa projects at various levels 2. A vote for each registered member for the consensus standards being submitted to the National BIM Standard 3. Primarily your membership supports the delivery of no cost products to the industry – Journal of Building Information Modeling – National BIM Standard Development – buildingSMART alliance web site – Annual conferences – Support to buildingSMART International – Support for Alliance projects and project promotion – Coordination with all organizations involved in BIM – Presentations, workshops and seminars to nearly 100 organizations a year – Central staff support for the Alliance 4. All members receive a 20% discount off attendee registration fees at all Ecobuild America and AEC Science & Technology events 5. Access to the electronic copy (PDF) of JBIM as soon as it is published—weeks in advance of the printed copy 6. Members at the $1,000 and above are listed on the Alliance web site 7. bSa members over $1,000 receive a single license of the United States National CAD Standard®—up to a $410 value 8. NIBS Public level membership included for each organization level member ($1,000 -$5,000)— $75.00 value © 2009 NIBS

buildingSMART alliance Member Levels Student $25.00 Individual $100.00 Associations $1,000.00 Educational Organizations $1,000.00 State & Local Government $1,000.00 Federal Government $5,000.00 Corporate Rate (Gross Annual Income Based ) $1,000.00 (<$10M) © 2009 NIBS

Sponsor Benefits 1.Levels of Giving 2. Alliance Sponsor – $10,000 annually 3. Bronze International Sponsor – $25,000 annually 4. Silver International Sponsor – $50,000 annually 5. Gold International Sponsor – $100,000 annually 6. Platinum International Sponsor – $250,000 annually 7.Seat on BOD © 2009 NIBS

Additional Material A.buildingSMART alliance web site: www.buildingsmartalliance.org – Keep current with news and events – Get copies of the Journal of BIM Magazine – Also check out presentations from previous conferences – Continue your education under Continuing Education – Participate in a local grass root Interest Group – Become involved with programs and projects – If you support our strategy – sign the MOU – Join or sponsor the Alliances’ work B.United States National BIM Standard: www.facilityinformationcouncil.org – Obtain copies of the NBIMS Version 1, Part 1 – Purchase a copy of the National CAD Standard © 2009 NIBS

BIMStorm and the ONUMA Planning System (OPS) Kimon Onuma, FAIA - ONUMA, Inc. ©ONUMA.com

GEOWeb, Vancouver, BC - June 22-25, 2008 ©ONUMA.com

ONUMA Planning System (OPS) BIM MODEL SERVER

What Not to BIM? 3D Model by Square 1 Budget: $180,000,000 Budget: $180,500,000 Budget: $181,600,000 Actual: $179,567,231 Floor Area: 85,000 SF Floor Area: 85,000 SF Floor Area: 85,700 SF Floor Area: 84,540 SF - Glazing Area: 20,000 SF Glazing Area: 19,000 SF Glazing Area: 21,242 SF - 5 Floors 6 Floors 6 Floors GEOWeb, Vancouver, BC - June 22-25, 2008 © Onuma

2008 BIMStorms 13 BIMStorms ©ONUMA.com

SITES ROOMS COUNTRIES BUILDINGS 14 2,458 3,964 493,914

3000 PARTICIPANTS Penn State iCON LAB REAL-TIME COLLABORATIO

PRE 0 HOUR 2 HOUR 4 HOUR 6 HOUR 8 HOUR 10 HOUR 12 HOUR 14 HOUR 16 HOUR 18 HOUR 20 HOUR 22 HOUR 24 O&M -V1 OP Master Plan 4D Time S Reports Automatic O&M -V2 3D Model BIM OPS to GIS EarthQuake Excel to OPS Scenario IFC Check WFS Cost Est. Cost Est. Shelter Sites 4D GE Identified IFC Green Roof PDF IFC Excel CALC WFS BIM PDF MAIL OSCRE OGC Excel PDF KML IFC IFC PDF Excel IFC BIM Blobs IFC Tenant FFE Energy Adjust GSA BIM Guide GIS IFC Files 11 Standards Countries 133 Players Zero Miles OP IFC S IFC IFC IFC IFC PDF Structure End IFC PDF IFC PDF IFC Ecotect PDF RVT KML HVAC End BIM- V1 Structure Start 1124 BIM- V2 GIS GBXML GBXML PDF Buildings 420 Cost Est. Ecotect GBXML Equipment IFC Configure KML Fire Stations and Bid. CSV Located GBXML Energy Files +2 Mil Parcel Exist Air Flow Exist Thermal Prop. Air Flow HVAC Adjust Shapes and Analysis Data Linked IFC HVAC Start Zoning One GIS Watershed Tax Data GBS Physical & Catchbasins 1st Physical Building Building of LEED Goals BIMStorm 10 Hours Corazon Home Construction Construction Constructio Mexico n US PST US PST Completed US EST US Night Shift US EST Europe Europe Europe Night Shift Hawaii Manila, Tokyo, HK 24 Hours of BIMStorm™

Revit Architecture Archicad VectorWorks Nemetshek SketchUP Solibri & Structure - IFC IFC IFC IFC Viewer IFC IFC Onuma Planning System Google Earth IFC, KML,GBXML, CSV FFE Excel Reports KML IFC IFC IFC Acusourcing Revit IFC IFC 3D Model BIM 2/20/08 Elite CAD IFC Whitestone O&M Rhino GBXML IFC 4D In GE GBXML Ecotect O&M DDS CAD Green Building Studio ©ONUMA.com

Standards used for BIMStorm Exchanges 1. Open Standard Formats Vendor Specific Formats 2. CityGML - Open Geospatial Consortium •BIMXML - Onuma 3. COBIE - Construction Operations Building Information •BIM Mail - Onuma 4. CSV - Comma Separated Values •D - Elite CAD 5. GBXML - Green Building XML •DWF - AutoCAD 6. IFC - Industry Foundation Classes •Excel - Microsoft 7. IFC - GSA BIM Guide •Google Docs 8. JPEG - Images •Mars - Whitestone 9. KML - Google Earth •PLN - Archicad 10. OGC WFS - Open Geospatial Consortium •RVT - Revit 11. OSCRE - Open Standards Consortium for Real Estate •SKP - SketchUp 12. PDF - Portable Document Format •VWX - VectorWorks 13. Smart Codes - International Code Council 14. WC3 - Web Standards © 2009 NIBS

BIM + GIS ©ONUMA.com

The BIMStorm Effect 100 90 70 Effort <Pre> <Start Time End> Kimon Onuma / Lars Christensen A8

©ONUMA.com

Training Room Men Women 4 Person Office 2 Person Office 10 Person 6 Person 3 Person Conference Office Office Room ©ONUMA.com

©ONUMA.com

O Needed Graphics as to Data + has Access Entire Team List of S 60 Min. Spaces to Import Furniture Import Format for Excel or dB Excel or dB Excel or 1 Min Data to Excel or Furniture Furniture dB Spaces Clean up dB Spaces WWW 1 Min OPS OPS point. OPS OPS Import Furniture after this Generated to OPS possible A Automatically Earth or Google Revit, IFC Sketch up, 1 Min Quick Export to Confirm in OPS Layout of OPS OPS 1- POR > Space Create Plan and 3D ©ONUMA.com OPS

Excel or DB Excel or DB Furniture Furniture List of Spaces to Import Furniture OPS OPS 2D and 3D Sketch Idea in Layout in OPS Resolves Designer Optional Step: ©ONUMA.com

OPS OPS ADJACENCI ES ©ONUMA.com

Reports Cost, Security, People Blast, LEED, Other OPS OPS LAY OUT ©ONUMA.com

VIEW IN GOOGLE ©ONUMA.com EARTH

OPS to REVIT API VIEW IN REVIT ©ONUMA.com

REVIT ©ONUMA.com

OPS ©ONUMA.com

SCHEME 2 - 10 MIN ©ONUMA.com

BIMStorm

1) Building Information Modeling ( BIMStorm Identified in this Section )2) Bentley/Autodesk Interoperability Agreement3) Emerging Market Standards4) Creating Flat Liability on Projects5) Nemetschek Goes to Parasolid6) Algorithmic Design7) 3D Printing for the AEC Market8) Digital Cities9) Integrated Project Delivery Process10) Cloud Computing

Value Doing more with less. Differentiating and expanding capabilities. New Services Respond to RFPs Collaboration Life-Cycle Capturing Knowledge ©ONUMA.com

©ONUMA.com

Alexandria LIVE

BIMeducation.com (773) 252 5888 1) The Best use of BIM is Sustainable Design 2) People won’t use BIM unless they realize how easy it can be 3) Co-op members created a “Learning to Crawl” exercise 4) A simple 10’x10’ “ festival tent” could be built and furnished 5) The tent was landed on a “Virtual” GreenFest at the Alexandia Courthouse In 7 minutes! You are BIMing!

Vista Tech < > Design Atlantic http://picasaweb.google.com/yongkukim1/BIMstormAlexandria#5245202938138785474 https://www.onuma.com/plan/OPS/viewSite.php?sysID=65&ID=352

Jacobs / Turner

Tshwane LIVE 86 163

National Capital Planning Commission and City of Tshwane ©ONUMA.com

National Capital Planning Commission and City of Tshwane

9/10~9/11/2008 Alexandria LIVE

Food For Thot https://www.onuma.com/plan/OPS/viewSite.php?sysID=65&ID=305

Ryan Companies

Ryan Companies https://www.onuma.com/plan/OPS/viewSite.php?sysID=65&ID=295

Ryan Companies

Copyright Materials This presentation is protected by US and International Copyright laws. Reproduction, distribution, display and use of the presentation without written permission of the speaker is prohibited. Permission to use Request from: Copyright 2008© & Onuma, Inc. http://onuma.com/Contact/ Cannot be used for any other purposes unless authorized by creator

Copyright Materials This presentation is protected by US and International Copyright laws. Reproduction, distribution, display and use of the presentation without written permission of the speaker is prohibited. Copyright 2008© AEC Infosystems, Inc | Onuma, Inc. Crate & Barrel | buildingSMART alliance National Institute of Building Sciences McGraw-Hill Construction Faithful & Gould | Reed Construction Data Gehry Technologies | Jacobs Engineering | Mortenson Sydney Opera House Dale Davis, Associate AIA and LEED, Jtec HCM, Inc Wiley , 4Site Press Cannot be used for any other purposes unless authorized by creator © 2009 NIBS

Conférence et démonstration L’intégration des données vectorielles, matricielles, 3D et BIM au moyen de FME Par Dale Lutz Vice-Président des technologies Safe Software

Dale Lutz, Safe Software Inc. www.safe.com Integrating Vector, Raster, v 3D and BIM Data with FME Feb. 2009 Some Slides Originally by Tim Case of Parsons Brinckerhoff and Thomas Kolbe of the University of Berlin Used With Permission

Safe Software Overview Powering the flow of spatial data with FME Enabling people to use their spatial data where, when and how they want to 177

Why Spatial ETL? Significant proliferation of different spatial data formats and types Hundreds of formats, with more added each year Multiple types of data stored in multiple systems Unique data model requirements for each application 178

Why Spatial ETL? Traditional approaches to data translation and data model manipulation are not viable Complex, inefficient and time-consuming 179

Translate Convert data between formats and systems Example: DWG to Shape Read and write data in a broad range of formats 220 207 182 162 154 The Format Problem 136 137 The number of formats used 123 around the world has 112 increased significantly over 94 93 99 the past 10 years as illustrated by this chart 67 which shows the total 57 63 number of supported 46 formats in FME over time 29 33 17 9 180

Transform Interoperability requires solving *both* the format problem and the data model problem Semantic data translation is key! 181

FME Overview Enabling people to use their spatial data where, when and how they want to 182

FME Overview The recognized standard for spatial ETL 7500+ users in 116 countries Integrates with all key GIS applications Available in Desktop and Server products 183

FME Capabilities The only complete spatial ETL solution Translate spatial data from one format to another Transform spatial data into the precise data model you need Integrate different data types into a single data model Distribute spatial data to users where, when and how they need it 184

FME Desktop Components A complete desktop spatial ETL toolset 185

FME Desktop Components FME Workbench Use simple point and click to easily define spatial data flows to translate, transform and integrate your data 186

FME Desktop Components Universal Viewer Examine and inspect your spatial data’s attributes and geometry - before, after and even during a translation 187

FME Desktop Components Universal Viewer Examine and inspect your spatial data’s attributes and geometry - before, after and even during a translation 188

FME Desktop Components Universal Translator Quickly perform simple data conversions, as well as run custom mapping files 189

FME Server Scalable spatial ETL platform Share spatial data with users – where, when & how they need it Efficiently validate, load and convert large volumes of data 190

How FME Server Works with FME Desktop FME Desktop Author and run spatial ETL tasks FME Server Run and share spatial ETL capabilities 191

Five Key FME Server Services 1. Spatial Data Download Service 2. Spatial Data Streaming Service 3. Server-Based Spatial Data Conversion Service 4. Spatial Data Upload and Validation Service 5. Bulk Data Loading and Migration Service 192

Converging Worlds of Spatial and Non-Spatial BIM & BIM & 193

Influences of Many Disciplines… Convergence? Remote Video Land Use Survey Sensing Modeling GIS Photography Environmental Photogrammetry CAD Modeling BIM Transport Modeling [others] Energy Simulation Hollywood Design Gaming Visualization CG IT Medical Aerospace Flight MMOGS Visualization Automotive Systems Simulator Plant Engineering

Influences of Many Disciplines… Convergence? Examples of interchange formats LandXML LAS MPEG ShapefileZ KML … DXF JPEG2000 STSFIE DEM, DTED DGN DWG … IFC … [others] … Hollywood COLLADA CG 3ds HTML, … … … CATIA …

3D Information Management Open Standards approach to sharing of information and services between 3D geospatial technologies Critical for Urban Planning, Emergency Response, Homeland Security, Maintenance, Engineering Courtesy Parsons Brinckerhoff © Sony Corporation

World Aggregated World View Country Region State / Province Natural Asset County Air / Space City Underground Site Water / Sea Real Property Asset Land / Parcel Facility / Built Building System Sub-Systems Space Components Level Overlay Room Structure System Sub-Systems Space Components Level Overlay Room Linear Structure Node Segment

3D Data Models & Standard Formats CityGML IFC LandXML

CityGML Dr. Thomas H. Kolbe, U Berlin Dr. Gerhard Gröger, U Bonn www.citygml.org

CityGML Common information model for virtual 3D urban / landscape models covering different thematic aspects (buildings, vegetation, water bodies, terrain, transportation etc.) base model for more specific application models implemented as an application profile for GML3 CityGML represents 3D Geometry, Topology, Semantics & Appearance 5 consecutive Levels of Detail DTM in a flexible way (combinations of Raster, TIN, Masspoints, Breaklines)

CityGML: 5 Levels of Detail LOD 0 – Regional model 2.5D Digital Terrain Model LOD 1 – City / Site model “block model“ w/o roof structures LOD 2 – City / Site model textured, differenciated roof structures LOD 3 – City / Site model detailed architecture model LOD 4 – Interior model “walkable“ architecture models

Building in LoD4 Exterior Shell Roof Wall Opening (Window) Ceiling Room wall Room wall Room Floor Opening Ground (Door)

Coherent Model in Level of Detail 3 3D-Modell: Dr. Benner, Forschungszentrum Karlsruhe

Application Domain Extensions (ADE) NoiseSimul. NoiseSimul. Disaster Disaster management management ... CityGML CityGML TransXML TransXML ... GML GML XML XML

Bridging Geospatial & AEC-CAD-BIM AEC World Geospatial World IFC CityGML IFC Application View CityGML For Geospatial Buildings / Rooms

What are IFCs? …a way of specifying “things” occurring in the built environment…standard, object- oriented, data structure to assemble shared information models. Tangible items like doors, windows, fans, ceilings, actors etc. Abstract concepts like schedule activity, spaces, organization, etc..

IFC 2x: Current Capabilities Shape (explicit) Spaces, Space Structure space, storey, part, building, site Shape (extrusions) Compartmentation beams, pipes, ducts, walls etc. fire, workstation Shape (topology) line representations for pipe, duct, etc. Grids Building Elements Equipment wall, door, window, roof, stairs, etc. chillers, fans, pumps, etc. Relations Between Elements Furniture inc. system furniture holes, chases, voids, zones Slide from IAI North America, Images, Jeffrey Wix

LandXML • XML data file format • Contains civil engineering and survey data • Commonly used in the Land Development and Transportation Industries.

LandXML Data Model

LandXML Road Model

FME Support for 3D Data Models CityGML: Read/Write IFC: Read LandXML: Read/Write

3D Legacy Formats .3ds – 3D Studio Max circa 1994 Commonly used exchange format Autodesk 3DS Max serves as 3D data gathering point in many workflows OBJ – Wavefront OBJ circa 1992 Commonly used *now* vendor-neutral format Lacks a definitive reference application Several dialects Used by vendors wanting vendor-neutral 3D model exchange VRML – Virtual Reality Markup Language Largely superseded by X3D emerging XML format

FME Support for 3D Legacy Formats 3ds: Write Wavefront OBJ: Read/Write VRML: Write

Modern 3D Formats COLLADA KML FBX – Autodesk Filmbox PDF – Adobe PDF

COLLADA – Digital Asset Exchange Intermediate Digital Asset Exchange format (.dae) XML schema technology

COLLADA Features Mesh Geometry Transform hierarchy (rotation, translation, shear, scale, matrix) Materials Textures Shader programs (Cg, GLSL, GLES) Shader effects Lights Cameras Skinning Animation Physics (constraints, rag dolls, etc) Instancing Techniques Multi-representations Assets User data

KML Keyhole Markup Language Native format of Google Earth Now an OGC Standard Supports 3D objects natively Most serious 3D done via embedding COLLADA

FBX Named after Canadian company Kaydara’s Filmbox application Since aquired by Autodesk and renamed to MotionBuilder Born in 1996! Format targets 3D application data exchange Autodesk supplies a free SDK

PDF Portable Document Format Supports fully interactive 3D models via U3D standard Also supports Geospatial 2D maps

IFC -> PDF

FME Support for Modern 3D Formats COLLADA: Planned KML: Read/Write FBX: Planned PDF: Write

Operational 3D Formats ESRI Geodatabase ESRI Shape Oracle Spatial AutoCAD DWG Sketchup .skp Autodesk Revit

ESRI Shape/Geodatabase Multi-patch data type for solids and surfaces Optional use of PolygonZ data type to make 3D data computable

Oracle Spatial 3D data type and operations debut in Oracle 11g 3D data written to Oracle may need to be triangulated first A-> Oracle -> A’

AutoCAD DWG AutoCAD is a long-time 3D system DWG format very capable Limited/Difficult support for object attributes Map3D Object Data an option

Google Sketchup Very common tool for quick 3D model creation Free price = ubiquity .skp format used in Google 3D Warehouse

Autodesk Revit Widely used BIM tool Can use IFC as way in and out Growing demand for data exchange with GIS systems

FME Support For Operational 3D Formats ESRI Geodatabase: Read/Write ESRI Shape: Read/Write Oracle Spatial: Read/Write AutoCAD DWG: Read/Write Sketchup .skp: Read/Write (FME 2010) Autodesk Revit: Planned

CAD/GIS/BIM Integration Thread Huge potential for integrating Buildings (BIM) in a Geospatial (GIS) context on the Web Sponsors and Objectives General Services Administration: GSA BIM Guide - Space Assessment National Geospatial Intelligence Agency 3D visualization aspects Why? Building information for broader geospatial query and analysis Geospatial information for building site planning and design Building information with location based services

GIS/CAD/BIM Impedance Mismatches Incompatibilities between … Geospatial AEC (Architecture/Engineering/Construction) Outdoor Indoor Georeferenced Local Coordinate System 2D and 2.5D 3D and 2D Smaller scale Larger scale Rich standards for Web No standards for Web Services Services

Challenges Textures Preserving or creating the true look Curves and 3D complex math, complex models Triangulation requirements Lots of formats….

CAD/GIS/BIM Typical Integration Scenarios 2D Building Footprints + LIDAR elevations = 3D Extruded Buildings 3D Building Models in local coordinate space + .wld file + .prj = georeferenced buildings 3D Georeferenced buildings squished to 2D 2D building outlines moved into a 3d format to create an initial “slim BIM” to speed model creation

Dutch Treat Scenario: Virtual Apeldoorn Start with: 2D Building Footprints (in Shape) LIDAR elevations (in Microstation) (could be LAS or GeoTIFF or ???) End with: 3D Extruded Buildings Create a starting point 3D model for further refinement Apeldoorn Netherlands success story http://www.virtueelapeldoorn.nl/ (Dutch Speakers Only!)

Dutch Treat Scenario: Virtual Apeldoorn

Virtual Apeldoorn: ETL for Ground Layer

Demonstrations

Summary: The 3D Gold Rush

3D Visualization of 20133–2nd Avenue Langley

Thank You! Questions? For More Information dal@safe.com www.safe.com 604-501-9985 241

Témoignage Teknika HBA et le BIM Par Normand Bouchard Technicien sénior, division Bâtiment Teknika-HBA

Teknika HBA bâtisseur d’avenir! Témoignage Teknika HBA et le BIM Revit Structure Février 2009

Notre cheminement vers le BIM – Revit Structure 2004 – commencé à utiliser des logiciels de dessin 3D de façon sporadique Juin 2006 – suivi formation REVIT 3 Décembre 2006 – premier projet LE POUVOIR DU GÉNIE… depuis 1928

Les critères qui nous ont incité à utiliser Revit Un seul fichier qui peut être utilisé par plusieurs techniciens simultanément Les échelles sont faciles à gérer (ajustement d’échelle automatique) Les coupes, élévations de murs, élévations des poutres se font très rapidement La coordination des ballons de coupes, détails qui se font automatiquement La numérotation automatisée des dessins Les révisions sont automatisées pour tous les plans La liste des plans se génère automatiquement Méthode d’impression des plans, beaucoup plus conviviale La vue en 3D nous permet de mieux visualiser le projet LE POUVOIR DU GÉNIE… depuis 1928

Les critères qui nous ont incité à utiliser Revit Peut générer plusieurs tableaux pour calcul des quantités m³ et m² – très utile pour l’estimation budgétaire. Exemple : tableaux des fondations, pieux, murs, colonnes, poutres et dalles Les modifications se font automatiquement en plan, sur les coupes, les élévations, les détails, ainsi que sur la vue 3D LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés Résidence pour personnes âgées Résidence pour étudiants Agrandissement d’école Bâtiment commercial Édifice à bureau avec stationnements étagés Condominiums résidentiels Gare de train LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés RÉSIDENCE POUR PERSONNES ÂGÉES LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés RÉSIDENCE POUR ÉTUDIANTS LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés AGRANDISSEMENT D’ÉCOLE LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés BÂTIMENT COMMERCIAL LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés ÉDIFICE À BUREAUX ET STATIONNEMENTS ÉTAGÉS LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés CONDOMINIUMS RÉSIDENTIELS LE POUVOIR DU GÉNIE… depuis 1928

Quelques projets réalisés GARE DE TRAIN LE POUVOIR DU GÉNIE… depuis 1928

Questions LE POUVOIR DU GÉNIE… depuis 1928

Merci de votre présence!

Témoignage Technyx (Groupe Canam) et le BIM Par Jean-Luc Lachance Directeur technique BIM Technyx, division de Groupe Canam

• Société industrielle : cotée en Bourse depuis 1984 • Secteur d'activités : conception et fabrication de solutions et produits de construction • Ressources humaines : près de 3 000 employés • Usines / bureaux : Canada, États-Unis, Roumanie et Inde • Partenariats : Arabie Saoudite, Émirats arabes unis, France, Russie, Mexique, Chine et Roumanie Copyright © Groupe Canam inc., 2008, Tous droits réservés

Technyx - Profil Technyx commercialise l’impartition de ressources techniques dans les secteurs du dessin et des services d’assistance en modélisation des données du bâtiment (BIM) à partir de ses bureaux situés en Amérique du Nord, en Europe et en Asie. Copyright © Groupe Canam inc., 2008, Tous droits réservés

Technyx • Créé en 2004 • Plus de 400 employés • Impartition de ressources techniques • Logiciels utilisés : XSteel, SDS/2, Revit, Solidedge et Autocad Copyright © Groupe Canam inc., 2008, Tous droits réservés

3 axes de développements Efficacité Construction de Révolution manufacturière bâtiments à numérique associée haute efficacité au domaine de la énergétique construction Copyright © Groupe Canam inc., 2008, Tous droits réservés

Collecte d’informations • Lecture (livre & Internet) • Assister à des conférences • Devenir membre d’organismes clés • Établir un réseau de contacts Copyright © Groupe Canam inc., 2008, Tous droits réservés

Initiatives BIM chez Technyx • Stade New Meadowlands Firme d’ingénierie Thornton Tomassetti • Aréna des Pengouins de Pittsburgh BIM interne • Sondage firmes d’architecte canadiennes Copyright © Groupe Canam inc., 2008, Tous droits réservés

Atelier d’amélioration continue • Comparer processus conventionnel vs processus BIM • Identifier les actions à poser, les opportunités d’affaires et les services possibles liés au développement du BIM • Diriger les différents changements technologiques et le développement des processus d’affaires reliés au BIM • Plan d’action Copyright © Groupe Canam inc., 2008, Tous droits réservés

Le choix : Revit d’Autodesk • Outil le plus populaire auprès des architectes pour le concept du BIM • Répond le mieux aux besoins des divers participants dans un projet de construction • Polyvalent • Interopérable Copyright © Groupe Canam inc., 2008, Tous droits réservés

Plan d’action • Création d’un comité technique salle à dessin • Création d’un comité technique TI (Technologie de l’information) • Équipe de rendu 3D • Identification d’un projet-pilote Copyright © Groupe Canam inc., 2008, Tous droits réservés

Comité technique salle à dessin • Identifier un responsable par expertise/logiciel (Revit, XSteel, SDS/2…) • Assurer le support à la clientèle interne par logiciel • Effectuer des tests d’interopérabilité • Permettre l’échange d’expérience vécue par logiciel Copyright © Groupe Canam inc., 2008, Tous droits réservés

Comité technique TI • Identifier les responsables par expertise • Rendre interopérables nos logiciels internes avec les autres outils/logiciels du BIM (IFC) • Ajouter des fonctionnalités internes/maison aux logiciels existants • But : avoir un système plus intégré et efficace Copyright © Groupe Canam inc., 2008, Tous droits réservés

Équipe de rendu 3D • Prévisualisation du produit fini avant conception pour approbation du client • Simplifier l’approbation du client lors de changements de design/conception • Promouvoir la vente Copyright © Groupe Canam inc., 2008, Tous droits réservés

Identification d’un projet-pilote • Identification d’un projet-pilote avec des participants externes (architectes et ingénieurs) • Identification des usagers internes Copyright © Groupe Canam inc., 2008, Tous droits réservés

La phase 1 chez Groupe Canam * Chaque intervenant crée son propre modèle * Échange des modèles 3D (données) entre intervenants pour coordination “Lien partiel” M.E.P. Ingénieur Architecte Membrure et géométrie pour Structure Exportation CIS/2 & IFC Besoin du Mo plet co co dèle client dè m M let co odè le mp dessin Mo m le pl èl e et od et M mpl co Consultation Charpente d’acier détaillée avec plaque de Bâtiment virtuel complet connection Client, entrepreneur & Détaillage exploitation du bâtiment Demande de rendu Service de support visuel, animation 3D et rendu architectural Copyright © Groupe Canam inc., 2008, Tous droits réservés

Phases à venir • La dimension temporelle (4D) • Les coûts (5D) et l’opération de bâtiment (6D) • Intégration de modèles externes : bâtiment vert et écoénergétique (LEED) • Communications entre nos logiciels de calculs et de dessin : intégrer les produits de Groupe Canam au BIM Copyright © Groupe Canam inc., 2008, Tous droits réservés

Témoignage Vision du BIM et stratégie d’implantation chez Travaux Publics Canada Par Marie Desaulniers Gestionnaire CDAO Susan Keenliside Spécialiste BIM

TPSGC & BIM Témoignage Consortech - Séminaire BIM Québec le 17 février 2009 Montréal le 18 février 2009

Contexte Travaux publics et Services gouvernementaux Canada (TPSGC) • Fournisseur de services communs: – Biens et immeubles – Technologie de l'information – Paiements et pensions – Traduction et services linguistiques – Sécurité industrielle – Écologisation des opérations gouvernementales • Acheteur central • Banquier, comptable

Contexte Direction générale des biens immobiliers (DGBI) • Mandat principal – Fournir des locaux à bureaux • Services optionnels – Gestion des immeubles et des installations – Gestion de projets – Investissements stratégiques et les services immobiliers – Autres services spécialisés

Qu’est-ce que nous attendons du BIM ? Bénéfices promis: 1. Amélioration des processus de travail 2. Simplification de la gestion de l’information – Intégration de tous les éléments d’un modèle dans une seule base – Partage de l’information entre le domaine de la construction et celui de la gestion immobilière

Projet pilote BIM Ancienne Banque de Montréal Projet de réhabilitation L’édifice de l’ancienne banque de Montréal et situé au cœur de la Colline Parlementaire au centre-ville d’Ottawa. L’édifice, propriété de TPSGC, a été désigné comme édifice du patrimoine. Il a été choisi comme projet pilote pour le BIM étant donné les exigences complexes de son programme.

Édifice Édifice de Booth la banque de Montréal Édifice National Press Topographie du site

Modèle BIM Architectural Modèle BIM Structural Modèle BIM MEP

Collaboration - vérifications 1. Vérification visuelle • Vérifier le concept • Vérifier les éléments non-prévus 2. Vérification des interférences • Repérer les problèmes dans le modèle 3. Vérification des normes •Architectes + Ingénieurs = Assurer la cohérence Rapport des données BIM

Projet de réhabilitation de l’ancienne banque de Montréal

Édifice de base BIM – Projet pilote -Niveaux et grilles, information d’arpentage pertinente -Assemblages = Murs, planchers, toits, colonnes -Escaliers, noyaux (incl. puits verticaux) -Portes, fenêtres, rampes -Familles = Ascenseurs, panneaux électriques, etc. -Pièces (avec les attributs connus) -Nord géographique; coordonnées partagées *Le niveau de détail dépend le l’information existante.

EH Béton RANGEMENT Tuile Tapis Tuile RANGEMENT Béton

Notre stratégie de transition

Merci Gestionnaire CDAO Spécialiste BIM Marie Desauniers Susan Keenliside TPSGC / Services de la Géomatique TPSGC / Services de la Géomatique 350 avenue King Edward 350 King Edward Avenue, Ottawa, Ontario, K1A-0X1 Ottawa, Ontario, K1A-0X1 Téléphone: (613) 244-2999 Téléphone: (613) 244-3005 Courriel: marie.desauniers@tpsgc.gc.ca Courriel: susan.keenliside@tpsgc.gc.ca

Synthèse • Positionnement du BIM • International, national et local • Échanges intradisciplinaires • Un seul modèle = gains de productivité • Échanges interdisciplinaires • Partage du modèle = gains exponentiels • Interopérabilité 3D (IFC, FME) permet les échanges inter- fournisseurs • Tendance lourde du marché • Réalisations à succès • Plusieurs projets d’implantation en cours • Normalisation à venir…

Synthèse

Conclusion : À venir dans le BIM… Base de données BIM

Questions? 1-888-276-0543 Ventes : François Laganière (francoisl@consortech.com) poste 201 Technique : Marie-Pierre Lebel (mariepl@consortech.com) poste 211 Rémy Pelletier (remyp@consortech.com) poste 210 Pour visualiser cette présentation : http://www.consortech.com/marketing/seminaires/BIM2009

Événement BIM 2009 : Interopérabilité 3D en ingénierie

0 comments

Notes on slide 1

Favorites, Groups & Events