BIM Handbook – A Guide to Building Information Modeling for Owners, Designers, Engineers, Contractors, and Facility Managers, Third Edition

<p>FOREWORD</p>
<p>PREFACE</p>
<p>Chapter 1: Introduction</p>
<p>1.0 EXECUTIVE SUMMARY</p>
<p>1.1 INTRODUCTION</p>
<p>1.2 THE CURRENT AEC BUSINESS MODEL</p>
<p>1.2.1 Design–Bid–Build</p>
<p>1.2.2 Design–Build</p>
<p>1.2.3 Construction Management at Risk</p>
<p>1.2.4 Integrated Project Delivery</p>
<p>1.2.5 What Kind of Building Procurement Is Best When BIM Is Used?</p>
<p>1.3 DOCUMENTED INEFFICIENCIES OF TRADITIONAL APPROACHES</p>
<p>1.3.1 CIFE Study of Construction Industry Labor Productivity</p>
<p>1.3.2 NIST Study of Cost of Construction Industry Inefficiency</p>
<p>1.4 BIM: NEW TOOLS AND NEW PROCESSES</p>
<p>1.4.1 BIM Platforms and Tools</p>
<p>1.4.2 BIM Processes</p>
<p>1.4.3 Definition of Parametric Objects</p>
<p>1.4.4 Support for Project Team Collaboration</p>
<p>1.5 BIM AS A LIFECYCLE PLATFORM</p>
<p>1.6 WHAT IS NOT A BIM PLATFORM?</p>
<p>1.7 WHAT ARE THE BENEFITS OF BIM? WHAT PROBLEMS DOES IT ADDRESS?</p>
<p>1.7.1 Preconstruction Benefits to Owner (Chapters 4 and 5)</p>
<p>1.7.2 Benefits for Design (Chapter 5)</p>
<p>1.7.3 Construction and Fabrication Benefits (Chapters 6 and 7)</p>
<p>1.7.4 Post Construction Benefits (Chapter 4)</p>
<p>1.8 BIM AND LEAN CONSTRUCTION</p>
<p>1.9 WHAT CHALLENGES CAN BE EXPECTED?</p>
<p>1.9.1 Challenges with Collaboration and Teaming</p>
<p>1.9.2 Legal Changes to Documentation Ownership and Production</p>
<p>1.9.3 Changes in Practice and Use of Information</p>
<p>1.9.4 Implementation Issues</p>
<p>1.10 FUTURE OF DESIGNING AND BUILDING WITH BIM (Chapter 9)</p>
<p>1.11 CASE STUDIES (Chapter 10)</p>
<p>Chapter 1 DISCUSSION QUESTIONS</p>
<p>Chapter 2: Core Technologies and Software</p>
<p>2.0 EXECUTIVE SUMMARY</p>
<p>2.1 THE EVOLUTION TO OBJECT–BASED PARAMETRIC MODELING</p>
<p>2.1.1 Early 3D Modeling</p>
<p>2.1.2 Degrees of Parametric Modeling</p>
<p>2.1.3 Predefined versus User–Defined Parametric Objects and Libraries</p>
<p>2.2 BEYOND PARAMETRIC SHAPES</p>
<p>2.2.1 Property and Attribute Handling</p>
<p>2.2.2 Drawing Generation</p>
<p>2.2.3 Scalability</p>
<p>2.2.4 Object Management and Links</p>
<p>2.2.5 Some Commonly Asked Questions</p>
<p>2.3 BIM ENVIRONMENTS, PLATFORMS, AND TOOLS</p>
<p>2.3.1 Considerations for BIM Design Applications</p>
<p>2.3.2 Considerations for a BIM Environment</p>
<p>2.4 BIM MODEL QUALITY AND MODEL CHECKING</p>
<p>2.5 BIM PLATFORMS</p>
<p>2.5.1 Allplan</p>
<p>2.5.2 ArchiCAD</p>
<p>2.5.3 Bentley Systems</p>
<p>2.5.4 DESTINI Profiler</p>
<p>2.5.5 Digital Project</p>
<p>2.5.6 Revit</p>
<p>2.5.7 Tekla Structures</p>
<p>2.5.8 Vectorworks</p>
<p>2.5.9 AutoCAD–Based Applications</p>
<p>2.6 DESIGN REVIEW APPLICATIONS</p>
<p>2.6.1 Model Viewers</p>
<p>2.6.2 Model Integration Tools</p>
<p>2.6.3 Model Checkers</p>
<p>2.7 CONCLUSION</p>
<p>Chapter 2 DISCUSSION QUESTIONS</p>
<p>Chapter 3: Collaboration and Interoperability</p>
<p>3.0 EXECUTIVE SUMMARY</p>
<p>3.1 INTRODUCTION</p>
<p>3.2 DIFFERENT KINDS OF DATA EXCHANGE METHODS</p>
<p>3.3 BACKGROUND OF PRODUCT DATA MODELS</p>
<p>3.3.1 Modeling Languages</p>
<p>3.3.2 ISO–STEP in Building Construction</p>
<p>3.3.3 buildingSMART and IFC</p>
<p>3.3.4 What Is the IFC?</p>
<p>3.3.5 IDM and MVD</p>
<p>3.4 OTHER EFFORTS SUPPORTING STANDARDIZATION</p>
<p>3.4.1 buildingSMART Data Dictionary</p>
<p>3.4.2 OmniClass</p>
<p>3.4.3 COBie</p>
<p>3.4.4 XML–Based Schemas</p>
<p>3.5 THE EVOLUTION FROM FILE–BASED EXCHANGE TO</p>
<p>BIM SERVERS</p>
<p>3.5.1 Project Transactions and Synchronization</p>
<p>3.5.2 Functionality of BIM Servers</p>
<p>3.5.3 BIM Server Review</p>
<p>3.6 Interfacing Technologies</p>
<p>3.6.1 Semi–Automated Approaches</p>
<p>3.6.2 Semantic Approaches</p>
<p>Chapter 3 DISCUSSION QUESTIONS</p>
<p>Chapter 4: BIM For Owners And Facility Managers</p>
<p>4.0 EXECUTIVE SUMMARY</p>
<p>4.1 INTRODUCTION: WHY OWNERS SHOULD CARE ABOUT BIM</p>
<p>4.2 OWNER S ROLE IN A BIM PROJECT</p>
<p>4.2.1 Design Assessment</p>
<p>4.2.2 Complexity of Building Infrastructure and Building Environment</p>
<p>4.2.3 Sustainability</p>
<p>4.2.4 Public Construction Agencies: BIM Adoption Guidelines</p>
<p>4.3 COST AND TIME MANAGEMENT</p>
<p>4.3.1 Cost Management</p>
<p>4.3.2 Time to Market: Schedule Management</p>
<p>4.3.3 Facility and Information Asset Management</p>
<p>4.3.4 &nbsp;BIM Tool Guide for Owners</p>
<p>4.3.5 BIM Cost Estimating Tools</p>
<p>4.3.6 Facility and Asset Management Tools</p>
<p>4.3.7 Operation Simulation Tools</p>
<p>4.4 AN OWNER AND FACILITY MANAGER S BUILDING MODEL</p>
<p>4.4.1 Information Content of BIM–FM model</p>
<p>4.4.2 Alternative Approaches to Creating a BIM–FM model</p>
<p>4.4.3 Classification of Model Data and Standards</p>
<p>4.5 LEADING THE BIM IMPLEMENTATION ON A PROJECT</p>
<p>4.5.1 Develop Guidelines for Use of BIM on Projects</p>
<p>4.5.2 Build Internal Leadership and Knowledge</p>
<p>4.5.3 Service Provider Selection</p>
<p>4.5.4 Provide for Use of a Big Room for Design and Construction</p>
<p>4.6 BARRIERS TO IMPLEMENTING BIM: RISKS AND COMMON MYTHS</p>
<p>4.7 ISSUES FOR OWNERS TO CONSIDER WHEN ADOPTING BIM</p>
<p>Chapter 4 DISCUSSION QUESTIONS</p>
<p>Chapter 5: BIM For Architects and Engineers</p>
<p>5.0 EXECUTIVE SUMMARY</p>
<p>5.1 INTRODUCTION</p>
<p>5.2 SCOPE OF DESIGN SERVICES</p>
<p>5.2.1 Collaborative Forms of Project Delivery</p>
<p>5.2.2 The Concept of Information Development</p>
<p>5.2.3 Civil and Infrastructure Design</p>
<p>5.3 BIM USE IN DESIGN PROCESSES</p>
<p>5.3.1 Concept Design</p>
<p>5.3.2 Prefabrication</p>
<p>5.3.3 Analysis, Simulation, and Optimization</p>
<p>5.3.4 Construction–Level Building Models</p>
<p>5.3.5 Design–Construction Integration</p>
<p>5.3.6 Design Review</p>
<p>5.4 BUILDING OBJECT MODELS AND LIBRARIES</p>
<p>5.4.1 Embedding Expertise into Building Components</p>
<p>5.4.2 Object Libraries</p>
<p>5.4.3 BOM Portals</p>
<p>5.4.4 Desktop/LAN Libraries</p>
<p>5.5 CONSIDERATIONS IN ADOPTION FOR DESIGN PRACTICE</p>
<p>5.5.1 Justification and Platform Selection</p>
<p>5.5.2 Phased Utilization</p>
<p>Chapter 5 DISCUSSION QUESTIONS</p>
<p>Chapter 6: BIM For Contractors</p>
<p>6.0. EXECUTIVE SUMMARY</p>
<p>6.1. INTRODUCTION</p>
<p>6.2. TYPES OF CONSTRUCTION FIRMS</p>
<p>6.3. INFORMATION CONTRACTORS WANT FROM BIM</p>
<p>6.4. BIM–ENABLED PROCESS CHANGE</p>
<p>6.4.1. Leaner Construction</p>
<p>6.4.2. Less Paper in Construction</p>
<p>6.4.3. Increased Distribution of Work</p>
<p>6.5. DEVELOPING A CONSTRUCTION BUILDING INFORMATION MODEL</p>
<p>6.5.1. Production Detailing</p>
<p>6.5.2. Big Room Co–location Onsite</p>
<p>6.6. USING A CONTRACTOR BUILDING INFORMATION MODEL</p>
<p>6.7. 3D: VISUALIZATION AND COORDINATION</p>
<p>6.8. 4D: CONSTRUCTION ANALYSIS AND PLANNING</p>
<p>6.8.1. 4D Models to Support Construction Planning</p>
<p>6.8.2. Benefits of 4D Models</p>
<p>6.8.3. BIM Tools with 4D Capability</p>
<p>6.8.4. BIM–Supported Planning and Scheduling Issues and Guidelines</p>
<p>6.9. 5D: QUANTITY TAKEOFF AND COST ESTIMATING</p>
<p>6.9.1. Extracting Quantities from BIM Models for Estimating</p>
<p>6.9.2. Guidelines and BIM Implementation Issues to Support Quantity Takeoff and Estimating</p>
<p>6.10. PRODUCTION PLANNING AND CONTROL</p>
<p>6.11. OFFSITE FABRICATION AND MODULAR CONSTRUCTION</p>
<p>6.11.1 Surveying Site Conditions</p>
<p>6.12. BIM IN THE FIELD</p>
<p>6.12.1. Delivering Design Information to the Field</p>
<p>6.12.2. Coordinating Production</p>
<p>6.13. COST AND SCHEDULE CONTROL AND OTHER MANAGEMENT FUNCTIONS</p>
<p>6.14. COMMISSIONING AND TURNOVER</p>
<p>Chapter 6 DISCUSSION QUESTIONS</p>
<p>Chapter 7: BIM For Subcontractors and Fabricators</p>
<p>7.0 EXECUTIVE SUMMARY</p>
<p>7.1 INTRODUCTION</p>
<p>7.2 TYPES OF SUBCONTRACTORS AND FABRICATORS</p>
<p>7.2.1 Subcontractor Trades</p>
<p>7.2.2 Made–to–Stock and Made–to–Order Component Suppliers</p>
<p>7.2.3 Engineered–to–Order Component Fabricators</p>
<p>7.2.4 Design Service Providers and Specialist Coordinators</p>
<p>7.2.5 Full–Service Design–Build Prefabricated and Modular Construction</p>
<p>7.3 THE BENEFITS OF A BIM PROCESS FOR SUBCONTRACTOR FABRICATORS</p>
<p>7.3.1 Marketing and Tendering</p>
<p>7.3.2 Reduced Production Cycle Times</p>
<p>7.3.3 Reduced Design Coordination Errors</p>
<p>7.3.4 Lower Engineering and Detailing Costs</p>
<p>7.3.5 Increased Use of Automated Manufacturing Technologies</p>
<p>7.3.6 Increased Preassembly, Prefabrication, and Modular Construction</p>
<p>7.3.7 Quality Control, Supply Chain Management, and Lifecycle Maintenance</p>
<p>7.4 GENERIC BIM SYSTEM REQUIREMENTS FOR FABRICATORS</p>
<p>7.4.1 Parametric and Customizable Parts and Relationships</p>
<p>7.4.2 Reporting Components for Fabrication</p>
<p>7.4.3 Interface to Management Information Systems</p>
<p>7.4.4 Interoperability</p>
<p>7.4.5 Information Visualization</p>
<p>7.4.6 Automation of Fabrication Tasks</p>
<p>7.5 SPECIFIC BIM REQUIREMENTS FOR FABRICATION</p>
<p>7.5.1 Traditional ETO Component Fabricators</p>
<p>7.5.2 Modular Construction</p>
<p>7.5.3 3D Printing and Robotic Construction</p>
<p>7.6 ADOPTING BIM IN A FABRICATION OPERATION</p>
<p>7.6.1 Setting Appropriate Goals</p>
<p>7.6.2 Adoption Activities</p>
<p>7.6.3 Planning the Pace of Change</p>
<p>7.6.4 Human Resource Considerations</p>
<p>Chapter 7 DISCUSSION QUESTIONS</p>
<p>Chapter 8: Facilitators of BIM Adoption and Implementation</p>
<p>8.0 EXECUTIVE SUMMARY</p>
<p>8.1 INTRODUCTION</p>
<p>8.2 BIM MANDATES</p>
<p>8.2.1 Significance of Government BIM Mandates</p>
<p>8.2.2 The Status of Government BIM Mandates around the World</p>
<p>8.2.3 Motivations</p>
<p>8.2.4 BIM Requirements</p>
<p>8.2.5 Challenges and Considerations</p>
<p>8.3 BIM ROADMAPS, MATURITY MODELS AND MEASURES</p>
<p>8.3.1 BIM Roadmaps</p>
<p>8.3.2 BIM Maturity Models</p>
<p>8.3.3 BIM Measures</p>
<p>8.4 BIM GUIDES</p>
<p>8.4.1 BIM Guides by Region and Organization</p>
<p>8.4.2 BIM Guides by Topic</p>
<p>8.5 BIM EDUCATION AND TRAINING</p>
<p>8.5.1 Transition of Senior Staff</p>
<p>8.5.2 BIM Roles and Responsibilities</p>
<p>8.5.3 Industry Training and Certificate Programs</p>
<p>8.5.4 University Education Programs</p>
<p>8.5.5 Considerations for Training and Deployment</p>
<p>8.6 LEGAL, SECURITY, AND BEST PRACTICE ISSUES</p>
<p>8.6.1 Legal and Intellectual Property Issues</p>
<p>8.6.2 Cyber Security for BIM</p>
<p>8.6.3 Best Practices and Other Social Issues</p>
<p>ACKNOWLEDGMENTS</p>
<p>Chapter 8 DISCUSSION QUESTIONS</p>
<p>Chapter 9: The Future: Building with BIM</p>
<p>9.0 EXECUTIVE SUMMARY</p>
<p>9.1 INTRODUCTION</p>
<p>9.2 BIM BEFORE 2000: PREDICTING TRENDS</p>
<p>9.3 DEVELOPMENT AND IMPACT OF BIM: 2000 TO 2017</p>
<p>9.3.1 Impact on Owners: Better Options, Better Reliability</p>
<p>9.3.2 Impact on the Design Professions</p>
<p>9.3.3 Impact on Construction Companies</p>
<p>9.3.4 Impact on Building Material and Component Suppliers</p>
<p>9.3.5 Impact on Construction Education: Integrated Education</p>
<p>9.3.6 Impact on Statutory Authorities: Model Access and Review</p>
<p>9.3.7 Impact on Project Documentation: On–Demand Drawings</p>
<p>9.3.8 Impact on BIM Tools: More Integration, More Specialization, More Information</p>
<p>9.4 CURRENT TRENDS</p>
<p>9.4.1 Process Trends</p>
<p>9.4.2 Technology Trends</p>
<p>9.4.3 Integrative Process and Technology Trends</p>
<p>9.4.4 Trends in BIM Research</p>
<p>9.4.5 Obstacles to Change</p>
<p>9.5 VISION 2025</p>
<p>9.5.1 Thoroughly Digital Design and Construction</p>
<p>9.5.2 A New Culture of Innovation in Construction</p>
<p>9.5.3 Offsite Construction</p>
<p>9.5.4 Construction Regulation: Automated Code–Checking</p>
<p>9.5.5 Artificial Intelligence in Construction</p>
<p>9.5.6 Globalization</p>
<p>9.5.7 Support for Sustainable Construction</p>
<p>9.6 BEYOND 2025</p>
<p>ACKNOWLEDGMENTS</p>
<p>Chapter 9 DISCUSSION QUESTIONS</p>
<p>Chapter 10: BIM Case Studies</p>
<p>10.0 INTRODUCTION</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.1 NATIONAL CHILDREN S HOSPITAL, DUBLIN</p>
<p>10.1.1 Introduction</p>
<p>10.1.2 Motivation for the Project</p>
<p>10.1.3 The Building</p>
<p>10.1.4 The NCH Project</p>
<p>10.1.5 The BIM Executive Plan (BEP)</p>
<p>10.1.6 Visualization, Simulation, and Design Optimization</p>
<p>10.1.7 Summary of BIM Benefits</p>
<p>ACKNOWLEDGMENT</p>
<p>10.2 HYUNDAI MOTORSTUDIO GOYANG, SOUTH KOREA</p>
<p>10.2.1 Project Overview</p>
<p>10.2.2 Complex Spatial Arrangement: BIM–Based Design Coordination</p>
<p>10.2.3 Free–Form Patterned Exterior: Panelization</p>
<p>10.2.4 Largest Mega Truss Structure in Korea: Laser Scanning</p>
<p>10.2.5 Perception Gap between Participants: VR and 4D simulation</p>
<p>10.2.6 Needs for Schedule Reduction: Multitrade Prefabrication</p>
<p>10.2.7 Lessons Learned and Conclusion</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.3 FONDATION LOUIS VUITTON, PARIS</p>
<p>10.3.1 Introduction</p>
<p>10.3.2 Project Design Workflow and Software Technology</p>
<p>10.3.3 Design of the Structure and Sails</p>
<p>10.3.4 Model Analyses</p>
<p>10.3.5 Generative Detailing Using 3D Intelligent Components</p>
<p>10.3.6 Concrete Iceberg Panelization and Optimization for Fabrication</p>
<p>10.3.7 Fabrication of the Glass Sails</p>
<p>10.3.8 Integrated Use of the BIM Model</p>
<p>10.3.9 Lessons Learned</p>
<p>10.3.10 Conclusion</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.4 DONGDAEMUN DESIGN PLAZA, SEOUL, SOUTH KOREA</p>
<p>10.4.1 Introduction</p>
<p>10.4.2 Challenges during the Design Phase</p>
<p>10.4.3 Challenges during the Construction Phase</p>
<p>10.4.4 BIM to Fabrication</p>
<p>10.4.5. Lessons Learned</p>
<p>10.4.6 Conclusion and Future Outlook</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.5 SAINT JOSEPH HOSPITAL, DENVER</p>
<p>10.5.1 Organizational Structure and the Collaboration Agreement</p>
<p>10.5.2 The BIM Execution Plan</p>
<p>10.5.3 Simulations and Analyses</p>
<p>10.5.4 BIM Support for Prefabrication</p>
<p>10.5.5 Ensuring Metrics Help Inform Future Efforts</p>
<p>10.5.6 Risk and Safety Benefits of BIM and Prefabrication</p>
<p>10.5.7 BIM in the Field</p>
<p>10.5.8 BIM for Facility Management</p>
<p>10.5.9 Lessons Learned: Best Practices</p>
<p>ACKNOWLEDGMENTS</p>
<p>ONLINE SOURCES</p>
<p>10.6 VICTORIA STATION, LONDON UNDERGROUND</p>
<p>10.6.1 History</p>
<p>10.6.2 The Project</p>
<p>10.6.3 Engineering Challenges</p>
<p>10.6.4 The Role of BIM</p>
<p>10.6.5 BIM Benefits to the Project</p>
<p>10.6.6 Postscript</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.7 NANYANG TECHNOLOGICAL UNIVERSITY STUDENT RESIDENCE HALLS, SINGAPORE</p>
<p>10.7.1 Introduction</p>
<p>10.7.2 Project Overview</p>
<p>10.7.3 Project Organization/Management</p>
<p>10.7.4 PPVC Workflow</p>
<p>10.7.5 BIM Implementation</p>
<p>10.7.6 Parametric PPVC Library</p>
<p>10.7.7 Benefits Realization</p>
<p>10.7.8 Conclusion and Lessons Learned</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.8 MAPLETREE BUSINESS CITY II, SINGAPORE</p>
<p>10.8.1 Introduction</p>
<p>10.8.2 Communication and Collaboration Issues</p>
<p>10.8.3 BIM Coordination Meetings</p>
<p>10.8.4 BIM Execution Planning</p>
<p>10.8.5 Data Exchange</p>
<p>10.8.6 Productivity Gains</p>
<p>10.8.7 Innovative Uses of BIM</p>
<p>10.8.8 Simulation and Analysis</p>
<p>10.8.9 BIM in the Field</p>
<p>10.8.10 Conclusion</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.9 PRINCE MOHAMMAD BIN ABDULAZIZ INTERNATIONAL AIRPORT, MEDINA, UAE</p>
<p>10.9.1 Project Information</p>
<p>10.9.2 Novel/Innovative Use of BIM</p>
<p>10.9.3 Communication and Collaboration</p>
<p>10.9.4 &nbsp;Stakeholder Involvement</p>
<p>10.9.5 Risk</p>
<p>10.9.6 BIM in the Field</p>
<p>10.9.7 Lessons Learned: Problems, Challenges, Solutions</p>
<p>10.9.8 Conclusion and Future Outlook</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.10 HOWARD HUGHES MEDICAL INSTITUTE, CHEVY CHASE, MARYLAND</p>
<p>10.10.1 Introduction</p>
<p>10.10.2 Background</p>
<p>10.10.3 The Challenges</p>
<p>10.10.4 An FM–Capable BIM</p>
<p>10.10.5 Impact Analysis Using an FM–Capable BIM</p>
<p>10.10.6 Lessons Learned Thus Far</p>
<p>10.10.7 Path Forward</p>
<p>ACKNOWLEDGMENTS</p>
<p>10.11 STANFORD NEUROSCIENCE HEALTH CENTER, PALO ALTO, CALIFORNIA</p>
<p>10.11.1 Introduction</p>
<p>10.11.2 Project Details</p>
<p>10.11.3 The Pilot</p>
<p>10.11.4 Making the Case</p>
<p>10.11.5 The Journey</p>
<p>10.11.6 The Team</p>
<p>10.11.7 Executing the Pilot</p>
<p>10.11.8 Use Case Metrics</p>
<p>10.11.9 Results of Use Cases</p>
<p>10.11.10 Summary of Benefits</p>
<p>10.11.11 BIM Costs and Impact on Annual Budget</p>
<p>10.11.12 Lessons Learned</p>
<p>10.11.13 Conclusion and Future Outlook</p>
<p>Glossary</p>
<p>References</p>
<p>Index</p>