Building Information Modeling : Shared Modeling, Mutual Data, the New Art of Building.

Format:

Book

Author/Creator:

Teulier, Régine.

Contributor:

Bagieu, Marie.

Series:

Mechanics, Civil engineering and construction

Language:

English

Subjects (All):

Building information modeling.

Physical Description:

1 online resource (259 pages)

Edition:

1st ed.

Place of Publication:

Newark : John Wiley & Sons, Incorporated, 2024.

Summary:

This book presents how Building Information Modeling (BIM) and the use of shared representation of built assets facilitate design, construction and operation processes (ISO 19650). The modeling of public works data disrupts the art of construction. Written by both academics and engineers who are heavily involved in the French research project Modélisation des INformations INteropérables pour les INfrastructues Durables (MINnD) as well as in international standardization projects, this book presents the challenges of BIM from theoretical and practical perspectives. It provides knowledge for evolving in an ecosystem of federated models and common data environments, which are the basis of the platforms and data spaces. BIM makes it possible to handle interoperability very concretely, using open standards, which lead to openBIM. The use of a platform allows for the merging of business software and for approaches such as a Geographic Information System (GIS) to be added to the processes. In organizations, BIM meets the life cycles of structures and circular economy. It is not only a technique that reshapes cooperation and trades around a digital twin but can also disrupt organizations and business models.

Contents:

Cover

Title Page

Copyright Page

Contents

Foreword

Preface

Introduction

Chapter 1. Disruptive Technology and Economic Issues

1.1. BIM as a disruptive technology

1.1.1. The concept of disruptive technology

1.1.2. BIM interpreted as a disruptive technology?

1.1.3. The characteristics of BIM as a disruptive technology

1.2. Introduction of BIM in the construction industry: observations from the French construction industry

1.2.1. The digital effect and the transformation of software and platforms

1.2.2. The transformation of all the company's processes

1.2.3. The management of the project

1.2.4. Project portfolio and corporate strategy

1.2.5. Inter-company cooperation

1.3. Economic issues

1.4. Implementation and diffusion of BIM

1.5. Measuring BIM maturity

1.6. Conclusion

1.7. References

Chapter 2. 3D Engineering and Lifecycle Management of Manufactured Products

2.1. Introduction

2.2. Digital mock-up

2.2.1. How to define a digital mock-up

2.2.2. Views, configurations and versions of a digital mock-up

2.3. Integration of the product lifecycle

2.3.1. Lifecycle management

2.3.2. Closed-loop lifecycle management

2.4. Models, standards and product ontologies

2.4.1. Models and product standards

2.4.2. Product ontologies

2.5. Multidisciplinary design

2.6. Systems engineering

2.7. Agility and digital transformation: the contribution of new collaboration processes

2.8. References

Chapter 3. Interoperability Through Standards: IFC, Concepts and Methods

3.1. Introduction

3.2. OpenBIM and interoperability

3.2.1. The requirements for exchanges

3.2.2. Exchanges between modeling software

3.2.3. Exchanges between modeling and simulation software

3.2.4. Exchanges between modeling software and other software.

3.2.5. Visualization software

3.3. The sustainability of the information

3.3.1. The security of standards

3.3.2. The storage of digital data

3.4. The development of IFC, a neutral exchange format

3.4.1. Principles, concepts and methods

3.4.2. Open format versus readability

3.4.3. IFC4

3.4.4. Other related formats

3.5. The infrastructure domain

3.5.1. Definitions

3.5.2. Specificity of the infrastructures

3.5.3. BIM challenges for infrastructure

3.5.4. Comparison with the manufacturing industry

3.6. IFCs for infrastructure

3.6.1. Identified areas

3.6.2. Development methodology

3.6.3. Newly built classes

3.6.4. Classes under development

3.6.5. Perspectives

3.7. Standards

3.7.1. IFC standards

3.7.2. BIM and related standards

3.8. References

Chapter 4. Structuring Information for the Digital Twin

4.1. Introduction

4.2. Problem

4.2.1. Complex systems

4.2.2. The business issue: "enabling system" and "systems of interest"

4.2.3. The challenges associated with the modeling of complex systems

4.3. Conclusion

4.4. References

Chapter 5. Complex Systems Modeling Approaches

5.1. Introduction

5.2. Object model-based approaches

5.2.1. Model-based architectures and standards

5.2.2. International standards using this type of modeling

5.3. Knowledge model-based approaches

5.3.1. Presentation of the approach and associated standards

5.3.2. Discussion

5.3.3. International standards using this type of modeling

5.4. Hybrid approaches

5.5. Conclusion

5.6. References

Chapter 6. Building Information Modeling and Lean Construction

6.1. Introduction

6.2. Overview on BIM and Lean

6.2.1. Building information modeling

6.2.2. Lean

6.2.3. Relation between BIM and Lean.

6.3. Contributions of BIM to Lean in design, construction and facilities maintenance

6.3.1. BIM for Lean in design

6.3.2. BIM for Lean Construction

6.3.3. BIM for Lean facilities management

6.4. Lean for BIM

6.5. Conclusion

6.6. References

Chapter 7. Building Information Modeling for Existing Buildings - Deconstruction Planning and Management

7.1. Introduction

7.2. Data generation for BIM use in existing buildings

7.2.1. Scan-to-BIM methods

7.2.2. Other methods

7.2.3. Standardized denomination of BIM data elements

7.3. BIM use in deconstruction and EOL building stages

7.3.1. Definitions

7.3.2. Benefits and impact of BIM deconstruction use case

7.3.3. Requirements for BIM deconstruction use case

7.3.4. State-of-the-art deconstruction planning

7.4. Conclusion

7.4.1. Summary

7.4.2. Outlook

7.5. References

Chapter 8. BIM, GIS: Complementarity and Convergence

8.1. BIM and GIS

8.1.1. Definitions

8.1.2. GIS, as a technical and organizational tool

8.1.3. GIS, a powerful land information management tool

8.1.4. BIM, a powerful asset management tool

8.2. BIM and GIS: Complementarity/convergence/digital continuity

8.2.1. Analogies between GIS and BIM

8.2.2. Scale complementarity of GIS and BIM

8.2.3. Complementarity of (geo)localization

8.2.4. Data complementarity

8.3. Convergence of formats

8.3.1. The emergence of GIS standards and the role of OGC

8.3.2. OGC standards

8.3.3. What standards for BIM - GIS convergence?

8.3.4. OGC - bSI Collaboration

8.4. BIM and GIS interoperability

8.4.1. Digital continuity

8.4.2. Exchange formats versus interoperability

8.4.3. The new collaborative tools

8.4.4. The evolution of practices and skills

8.5. Conclusion and perspectives

8.6. References

Glossary

List of Authors

Index

EULA.

Notes:

Description based on publisher supplied metadata and other sources.

Other Format:

Print version: Teulier, Régine Building Information Modeling

ISBN:

9781394264933

1394264933

9781394264919

1394264917

OCLC:

1417609904