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Table of Contents
Intro
Preface
Acknowledgments
Contents
About the Authors
1 Existing Building Transformation: Current Drivers, Issues, and Possibilities
1.1 Additive Strategies for the Transformation of the Existing Building Stock
1.2 Acting on the Built Environment
1.2.1 A Complex Framework: Domain, Standards, and Virtuous Examples
1.3 A Taxonomic Approach on Building Transformation and the Definition of "BAEIOU" Strategies
1.3.1 Additional Strategies Taxionomies: Top-Down and Bottom-Up Approaches
1.3.2 A Different Taxonomic Approach: Building Above, bEside, Inside, Outside, and Under (BAEIOU)
References
2 A New Taxonomic Perspective on Wood-Based Technologies for the Transformation of the AEC Sector
2.1 Wood as a Construction Material: Innovations Within Processes and Products
2.1.1 Wood Dimensions
2.2 Timber Construction Systems: A Taxonomic Perspective
2.2.1 The Taxonomic Approach to Building Systems
2.2.2 Timber Construction Systems
2.3 Timber Construction Strategies for Building Transformation: Applied Solutions from Realized Case Studies
2.3.1 Timber Construction Systems Within the Additive Retrofit Strategies: The Outcomes from the Case History Analysis
References
3 An Innovative Method for the Management of the Building Process
3.1 Building Design Process and IT: Ongoing Developments
3.2 A BIM-Based Active House Tool for the Parametric Evaluation and User-Centered Visualization of Data
3.2.1 A BIM-Based Management of Data, Information, and Evaluation Parameters
3.2.2 The Active House Vision as a BIM-Ready Platform of Requirements
3.2.3 From Active House to Taleah: A Parametric Upgrade of Multidimensional Evaluation
3.2.4 The Evaluation Across the Entire Building Process: Design Optioneering, Construction Check, and Cognitive Building
3.2.5 The Matter of Data Visualization: Engagement and Communication with the Final User
References
4 A Validation Opportunity: Case-Studies Analysis and Outcomes on the Application of the Method on Real Buildings
4.1 Set-Up of the Methodology for the Real Case Studies
4.1.1 Design Optioneering Set-Up
4.1.2 Cognitive Building Set-Up
4.2 Case Studies: 1 + 1 House and N + 1 dome as First Examples
4.3 Application Results and Discussions
4.3.1 Design Optioneering, Construction Check, and Cognitive Building Results
4.3.2 1 + 1 House and N + 1 dome: The Comparison Between Two Different Transformation Strategies
4.4 Research Outcomes and Conclusions
References
5 From Cognitive Buildings to Digital Twin: The Frontier of Digitalization for the Management of the Built Environment
5.1 CAD/CAM/BIM: New Codes for an Integrated Building Process
5.2 Building Process and BIM Dimensions
5.2.1 BIM Tools and Environments for the Evaluation of the Building Behaviour into a Data-Driven Process (6D).
Preface
Acknowledgments
Contents
About the Authors
1 Existing Building Transformation: Current Drivers, Issues, and Possibilities
1.1 Additive Strategies for the Transformation of the Existing Building Stock
1.2 Acting on the Built Environment
1.2.1 A Complex Framework: Domain, Standards, and Virtuous Examples
1.3 A Taxonomic Approach on Building Transformation and the Definition of "BAEIOU" Strategies
1.3.1 Additional Strategies Taxionomies: Top-Down and Bottom-Up Approaches
1.3.2 A Different Taxonomic Approach: Building Above, bEside, Inside, Outside, and Under (BAEIOU)
References
2 A New Taxonomic Perspective on Wood-Based Technologies for the Transformation of the AEC Sector
2.1 Wood as a Construction Material: Innovations Within Processes and Products
2.1.1 Wood Dimensions
2.2 Timber Construction Systems: A Taxonomic Perspective
2.2.1 The Taxonomic Approach to Building Systems
2.2.2 Timber Construction Systems
2.3 Timber Construction Strategies for Building Transformation: Applied Solutions from Realized Case Studies
2.3.1 Timber Construction Systems Within the Additive Retrofit Strategies: The Outcomes from the Case History Analysis
References
3 An Innovative Method for the Management of the Building Process
3.1 Building Design Process and IT: Ongoing Developments
3.2 A BIM-Based Active House Tool for the Parametric Evaluation and User-Centered Visualization of Data
3.2.1 A BIM-Based Management of Data, Information, and Evaluation Parameters
3.2.2 The Active House Vision as a BIM-Ready Platform of Requirements
3.2.3 From Active House to Taleah: A Parametric Upgrade of Multidimensional Evaluation
3.2.4 The Evaluation Across the Entire Building Process: Design Optioneering, Construction Check, and Cognitive Building
3.2.5 The Matter of Data Visualization: Engagement and Communication with the Final User
References
4 A Validation Opportunity: Case-Studies Analysis and Outcomes on the Application of the Method on Real Buildings
4.1 Set-Up of the Methodology for the Real Case Studies
4.1.1 Design Optioneering Set-Up
4.1.2 Cognitive Building Set-Up
4.2 Case Studies: 1 + 1 House and N + 1 dome as First Examples
4.3 Application Results and Discussions
4.3.1 Design Optioneering, Construction Check, and Cognitive Building Results
4.3.2 1 + 1 House and N + 1 dome: The Comparison Between Two Different Transformation Strategies
4.4 Research Outcomes and Conclusions
References
5 From Cognitive Buildings to Digital Twin: The Frontier of Digitalization for the Management of the Built Environment
5.1 CAD/CAM/BIM: New Codes for an Integrated Building Process
5.2 Building Process and BIM Dimensions
5.2.1 BIM Tools and Environments for the Evaluation of the Building Behaviour into a Data-Driven Process (6D).