Innovation in construction : a practical guide to transforming the construction industry / / Seyed Hamidreza Ghaffar [and three others], editors
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| Titolo: |
Innovation in construction : a practical guide to transforming the construction industry / / Seyed Hamidreza Ghaffar [and three others], editors
|
| Pubblicazione: | Cham, Switzerland : , : Springer, , [2022] |
| ©2022 | |
| Descrizione fisica: | 1 online resource (466 pages) |
| Disciplina: | 624.0285 |
| Soggetto topico: | Construction industry - Technological innovations |
| Construction industry | |
| Building materials | |
| Persona (resp. second.): | GhaffarSeyed Hamidreza |
| Nota di bibliografia: | Includes bibliographical references (pages 453-454). |
| Nota di contenuto: | Intro -- Preface -- About This Book -- Contents -- Editors and Contributors -- Part I Industry 4.0 and Drivers for Change -- 1 What Is Industry 4.0? -- 1 Additive Manufacturing -- 2 Data and Analytics -- 2.1 Construction's Historic Data Problems -- 2.2 The Development of Analysis -- 2.3 Data Use by Contractors -- 2.4 Data Use by Asset Owners -- 2.5 Data and Analytics Now-A Platform for Industry 4.0? -- 3 Artificial Intelligence -- 4 Robotics and Automation -- 5 Virtual, Augmented, Mixed, and Extended Reality -- 6 IoT and 5G -- 7 Digital Twins -- 8 Nanotechnology -- 9 Conclusions -- References -- 2 The Global Environmental Imperative -- 1 Climate Emergency -- 2 Overview of Construction industry's Contribution to Global Carbon -- 3 Carbon Mitigation Initiatives and Sustainable Development -- 4 Conclusions -- References -- 3 Industry 4.0 and Drivers for Socioeconomic Sustainability in the Construction Sector -- 1 Introduction -- 2 Population Forecasts and Urbanization Challenges Under Industry 4.0 -- 3 Construction 4.0 and Sustainable Development -- 4 Future-Proof Construction Industry: The Need for Crisis Resilience -- 5 Conclusions -- References -- 4 The Circular Construction Industry -- 1 Introduction -- 2 Principles of Circular Economy Concept -- 3 Innovative Technologies for Circular Construction -- 4 Construction and Demolition Waste Management -- 4.1 Construction and Demolition Waste Valorisation -- 5 Circular Construction Practices in the Industry -- 6 Conclusions and Prospective -- References -- Part II Innovation in Construction: A New Future for the Construction Industry. Areas of Focus for a Step Change in Construction -- 5 Fundamentals of Innovation -- 1 Introduction -- 2 Definition -- 3 Case Study 1-The de Havilland Comet -- 4 Case Study 2-Concorde -- 5 Case Study 3-Boeing 737 -- 6 Fundamentals -- 7 Conclusion -- References. |
| 6 Challenges to Innovation in Construction -- 1 Introduction -- 2 The Nature of the Product -- 2.1 Lifespan, Re-use and Embodied Carbon -- 2.2 Unique Complexity -- 2.3 Time and Trends -- 3 The Nature of the Art and Science -- 3.1 Scale -- 3.2 Materials and Methods -- 3.3 Deemed-to-satisfy Design Versus Performance-based Design -- 4 The Nature of the System -- 4.1 Industrial Lock-in -- 4.2 Fragmentation and Value Ownership -- 4.3 Regulation, Life Safety and Risk Aversion -- 4.4 Drivers for Change -- 5 Opportunities for Change -- References -- 7 Cutting-Edge Practical Research on Generative Design, IoT and Digital Twins -- 1 Introduction -- 2 Early Applications of Project Dasher in Building Operations -- 2.1 NASA Ames Sustainability Base -- 2.2 Schneider Electric's GreenOValley HQ -- 3 From Buildings to Infrastructure: Applying Dasher to Bridge Monitoring for Pier 9 and MX3D -- 4 Enhancing Privacy: Using Computer Vision to Anonymize Data Capture of Occupants and Passers-By -- 5 First Steps with Generative Design: The Airbus Bionic Partition -- 6 Designing an Office Generatively: Project Discover and Autodesk's Toronto Office -- 6.1 Evaluation Metrics -- 6.2 Design Generation -- 6.3 Design Exploration -- 6.4 Design Elaboration -- 7 Urban Scale: Applying GD for Residential Neighbourhood Layouts with Van Wijnen -- 8 The Future: Closing the Loop Between Digital Twins and Generative Design -- 9 Conclusions -- References -- 8 Artificial Intelligence and Data in Civil Engineering -- 1 Introduction -- 1.1 Background -- 1.2 What Is Data Science? -- 1.3 The Engineer as a Data Scientist -- 2 Data -- 2.1 Data Types -- 2.2 Getting Data -- 3 Artificial Intelligence -- 3.1 Overview -- 3.2 Machine Learning -- 3.3 Important Machine Learning Algorithms -- 4 Applications of Data Science in Civil Engineering -- 4.1 Predictive Maintenance -- 4.2 Surrogate Modelling. | |
| 4.3 Design Automation and Parametric Design -- 4.4 Code-Based Checking -- 5 Applied Data Science -- 5.1 Specifying the Problem -- 5.2 Developing the Solution Architecture -- 5.3 Training the Models -- 5.4 Using Other Peoples Models -- 5.5 Visualisation -- 5.6 Validation -- 5.7 Verification -- 6 Practical Guidance -- 6.1 Developing Data Skills -- 6.2 When not to Do Data Science -- 6.3 Biggest Value Projects -- 6.4 When to Ask for Outside Help -- 7 Case Study-Accidental Vessel Impact for Thames Tideway Tunnel -- 7.1 Project Aim -- 7.2 Data -- 7.3 Vessel Aberrancy -- 7.4 Model Overview -- 7.5 Modelling Assumptions -- 7.6 Applied Data Science -- 8 Conclusions -- References -- 9 Potential Application of Blockchain Technology to Transform the Construction Industry -- 1 Introduction -- 2 Fundamentals of Blockchain Technology -- 2.1 Peer-to-Peer Network -- 2.2 Hashing Algorithm -- 2.3 Public-Key Cryptography -- 2.4 Consensus Mechanism -- 2.5 Blockchain Architecture -- 3 Salient Features of Blockchain -- 4 Blockchain Taxonomy: Public, Private and Consortium -- 5 Blockchain Platforms -- 6 Blockchain Applications: Blockchain 1.0, Blockchain 2.0 and Blockchain 3.0 -- 7 Blockchain Applications for the Construction Industry -- 7.1 Supply Chain Management and Logistics Management -- 7.2 Property Transactions Management -- 7.3 Documentation Management and Integration with Building Information Modelling -- 7.4 Payment and Certification -- 7.5 Contract Management -- 7.6 Facilities Management -- 7.7 Quality Assurance and Compliance -- 8 Blockchain Applications for Sustainable Construction -- 8.1 Embodied Carbon Management -- 8.2 Energy Trading and Energy Management -- 8.3 Water Trading and Water Management -- 8.4 Waste Trading and Waste Management -- 8.5 Health and Safety Management -- 9 Conclusions -- References. | |
| 10 Parametric Design-A Drive Towards a Sustainable Future -- 1 Introduction -- 1.1 Parametric Modelling Versus Parametric Design -- 1.2 The Future of Parameterisation -- 2 Parametric Design Software -- 3 Basic Principles of Parametric Modelling and Design -- 3.1 The Basic Process -- 4 Parametric Modelling -- 5 Parametric Design -- 5.1 Form Finding -- 5.2 Manual Optimisation -- 5.3 Genetic Algorithm Optimisation -- 5.4 Generative Design -- 5.5 Topology Optimisation -- 6 Case Studies -- 6.1 Case Study 1: Form Finding -- 6.2 Case Study 2: Slab Optimisation -- 6.3 Case Study 3: Generative Design -- 6.4 Case Study 4: Elizabeth House Arch -- 7 Lessons Learnt -- 8 A Parametric Drive to Sustainable Design -- 8.1 Material Optimisation -- 8.2 Challenging Structural Form -- 8.3 Visualisation of Sustainable Targets -- 8.4 Modern Methods of Construction and Componentised Design -- 8.5 Integration of Existing Structure -- 8.6 Future of Materials -- 9 Concluding Thoughts -- Reference -- 11 Construction Industry Transformation Through Modular Methods -- 1 Introduction -- 2 Benefits of Modular Construction -- 3 Design Requirements of Modular Buildings -- 4 The Future of Modular Construction -- 4.1 Modular Construction Market -- 4.2 Cost Analysis -- 5 Case Studies of Modular Constructions -- 5.1 Case Studies for Residential Houses -- 5.2 Case Studies for Commercial Buildings -- 6 Innovations in Modular Construction -- 6.1 Opportunities with Composite Materials -- 6.2 Future Opportunities -- 7 Conclusions -- References -- 12 Concrete 3D Printing: Challenges and Opportunities for the Construction Industry -- 1 Introduction -- 1.1 Digital Transformation in the Construction Industry -- 1.2 Earlier Efforts Toward Automated Construction -- 1.3 Recent Developments -- 2 Current Status of the C3DP Technology -- 2.1 Printing Materials and Testing -- 2.2 Process Quality Control. | |
| 2.3 Design Code Compliance -- 3 Existing Challenges and Future Prospects -- 3.1 Existing Challenges -- 3.2 Future Prospects and Potential Applications -- 4 Conclusions -- References -- 13 Material Design, Additive Manufacturing, and Performance of Cement-Based Materials -- 1 Introduction -- 2 Extrusion-Based Concrete AM Process -- 3 Material Design, Extrusion Rheology, and Early-Age Properties of Additive Manufactured Concrete -- 3.1 Background -- 3.2 Material Design Approaches -- 3.3 Effect of Material Design on Extrusion Rheology and Early-Age Properties -- 3.4 Mechanical Performance of AMoC -- 3.5 Material and Machine Design for Large-Scale AMoC -- 4 Conclusions and Future Directions -- References -- 14 A Procedure Model for the Development of Construction Robots -- 1 Introduction -- 1.1 The Need for a Domain-Specific Procedure Model -- 1.2 Construction Robots: State of the Art -- 1.3 Beyond the State of the Art and Research Question -- 1.4 From STCRs Towards Modular/Multitask Construction Robots (MTCRs) -- 2 The Procedure Model -- 2.1 Procedure Models in Other Industries and Domains -- 2.2 Procedure Models for the Development of Construction Robots -- 2.3 Verification and Validation of the Model -- 3 Requirements Engineering (Act) -- 3.1 Context: Scenario, Technology, Stakeholder, and IPR Analysis -- 3.2 Task: Selection, Analysis, and Decomposition of the Task Area Foreseen for the Construction Robot -- 3.3 Strategy: Business Strategy and Scalability -- 3.4 Requirements: Co-creation, Requirements, Indicators -- 4 Development Sequence (Plan) -- 4.1 Application of Robot-Oriented Design (ROD) -- 4.2 Processes: Determine Operation Sequences and Processes -- 4.3 Detail Structure of Construction Robot -- 4.4 Modularisation and Flexibilisation -- 5 Implementation and Prototyping (Do) -- 5.1 Detailing of Integration with Existing Infrastructures. | |
| 5.2 Manufacturability. | |
| Titolo autorizzato: | Innovation in construction |
| ISBN: | 3-030-95798-5 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910556889403321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |