Smart Cities and Circular Economy: The Future of Sustainable Urban Development
Addressing resource depletion and environmental concerns for sustainable urban living, Smart Cities and Circular Economyunveils the transformative potential and challenges of integrating these ideas while emphasizing environmental, social, and economic benefits
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Format: | Elektronisch E-Book |
Sprache: | English |
Veröffentlicht: |
Leeds
Emerald Publishing Limited
2024
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Ausgabe: | 1st ed |
Schlagworte: | |
Online-Zugang: | DE-2070s |
Zusammenfassung: | Addressing resource depletion and environmental concerns for sustainable urban living, Smart Cities and Circular Economyunveils the transformative potential and challenges of integrating these ideas while emphasizing environmental, social, and economic benefits |
Beschreibung: | Description based on publisher supplied metadata and other sources |
Beschreibung: | 1 Online-Ressource (313 Seiten) |
ISBN: | 9781837979592 |
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505 | 8 | |a Cover -- Smart Cities and Circular Economy -- Smart Cities and Circular Economy: The Future of Sustainable Urban Development -- Copyright Page -- Contents -- About the Editors -- List of Contributors -- Preface -- Acknowledgements -- 1. The Human-Centred Workplace in Industry 4.0: Cultivating Well-Being and Engagement -- Abstract -- 1.1 Introduction -- 1.1.1 Background and Context -- 1.1.2 Significance of Human-Centred Workplaces in Industry 4.0 -- 1.1.3 Purpose and Scope of the Conceptual Paper -- 1.2 Ergonomic Workspaces in the Digital Age -- 1.2.1 Defining Ergonomic Workspaces -- 1.2.2 Profound Impact on Well-Being and Productivity -- 1.3 Autonomy and Collaboration: Empowering Employees in Industry 4.0 -- 1.4 Case Studies and Practical Implementations -- 1.4.1 Case Study 1: Spotify's Agile Squads -- 1.4.2 Case Study 2: Siemens' Factory of the Future -- 1.5 Conclusion -- References -- 2. A Bibliometric Analysis on the Integrating Smart Cities and the Circular Economy: Mapping the Landscape of an Emerging I ... -- Abstract -- 2.1 Introduction -- 2.2 Methodology -- 2.2.1 Data Collection -- 2.2.2 Identification of Research Gaps -- 2.3 Data Analysis and Result -- 2.3.1 Top Journals, Authors and Countries -- 2.3.2 Top Key Areas of Smart Cities and CE -- 2.3.3 Top Co-Authorship Analysis -- 2.4 Results -- 2.5 Discussion -- 2.6 Theoretical Implementations -- 2.7 Limitations -- 2.8 Conclusion -- 2.9 Future Work -- References -- 3. Developing a Circular Economy in Ho Chi Minh City: A Content Analysis-Based SWOT Analysis -- Abstract -- 3.1 Introduction -- 3.2 Theoretical Framework on CE -- 3.3 Case Studies Around the World -- 3.3.1 Amsterdam, Netherlands -- 3.3.2 Circular Textile Industry -- 3.3.3 Amsterdam Circular Innovation Programme -- 3.3.4 Circular Construction Practices -- 3.3.5 Seoul, South Korea -- 3.3.5.1 Zero Waste and Resource Circulation Plan | |
505 | 8 | |a 3.3.5.2 Sharing Economy in Seoul -- 3.3.5.3 Industrial Symbiosis (IS) -- 3.4 Methodology -- 3.4.1 Design -- 3.4.2 Sample -- 3.4.3 Data Analysis Procedure -- 3.5 SWOT Analysis of HCMC in Implementing CE -- 3.5.1 Strength -- 3.5.2 Weaknesses -- 3.5.3 Opportunity -- 3.5.4 Threats -- 3.6 Policy Implications -- 3.7 Conclusion -- References -- 4. Role of Internet of Things (IoT) in Enabling Circular Economy in Smart Cities -- Abstract -- 4.1 Introduction -- 4.1.1 Linear Economy vs CE -- 4.1.2 Symbiosis Between IoT and CE -- 4.1.3 Industry 4.0 Scenario in CE -- 4.2 CE-IoT Architecture for Smart City -- 4.3 Opportunities and Challenges in Implementing IoT-CE Infrastructure for a Smart and Sustainable Future (Nižetić et al., ... -- 4.4 Conclusion -- References -- 5. Exploring Challenges of Circular Economy Initiatives for Smart Cities -- Abstract -- 5.1 Introduction -- 5.2 Different Phases of Industrial Revolution -- 5.3 Legal Frameworks for Circular Economy Initiatives -- 5.4 Case Study -- 5.4.1 Amsterdam, Netherlands -- 5.4.2 Case Study: Columbian Waste Management System -- 5.5 Product Design -- 5.6 Remanufacturing -- 5.7 PPP Model in Suzhou, China -- 5.8 Conclusion -- References -- 6. Integrating Circular Economy in Smart Cities: Challenges and Pathways to Sustainable Urban Development -- Abstract -- 6.1 Introduction -- 6.1.1 Emergence and Evolution of Concepts -- 6.1.2 Integration of Smart Cities and Circular Economies -- 6.1.3 Challenges in Implementation -- 6.1.4 Overcoming the Barriers -- 6.1.5 Research Scope and Contributions -- 6.2 Smart City Technologies and Circular Economy Implementation -- 6.2.1 CE in Urban Context -- 6.2.2 Conceptual Framework for CE in Smart Cities -- 6.2.3 Barriers and Challenges to Implementation -- 6.3 Case Studies and Comparative Analysis -- 6.3.1 European Context: Implementation in Smart Cities | |
505 | 8 | |a 6.3.2 Global Perspectives: Comparative Analysis -- 6.4 Comparative Insights -- 6.5 Strategies for Overcoming Barriers -- 6.5.1 Policy Recommendations -- 6.5.2 Technological Innovations -- 6.5.3 Enhancing CE Infrastructure -- 6.5.4 Cross-Sector Collaboration -- 6.5.5 Leveraging Digital Platforms -- 6.6 Stakeholder Engagement and Community Involvement -- 6.7 Future Directions and Research Opportunities -- 6.7.1 Unexplored Areas in Smart Cities and CEs -- 6.7.2 Emerging Trends in Smart City Technologies and CE Principles -- 6.8 Conclusion -- References -- 7. AI-Enabled Circular Economy Management for Sustainable Smart Cities: Integrating Artificial Intelligence in Resource Opt ... -- Abstract -- 7.1 Introduction -- 7.1.1 Background and Context of CE in Smart Cities -- 7.1.2 Research Objectives and Scope -- 7.1.2.1 Research Objectives -- 7.1.2.2 Research Scope -- 7.1.3 Rationale for Integrating AI Technologies Into CE Practices -- 7.1.3.1 Complex Data Handling and Analysis -- 7.1.3.2 Predictive Capabilities for Optimization -- 7.1.3.3 Efficiency in Circular Supply Chains -- 7.1.3.4 Enhanced Waste Management -- 7.1.3.5 Sustainable Product Design -- 7.1.3.6 Citizen Engagement and Behaviour Analysis -- 7.1.3.7 Policy Effectiveness and Adaptation -- 7.2 AI-Driven Data Collection and Analysis -- 7.2.1 Explanation of IoT Sensors and Data Collection Mechanisms -- 7.2.2 Role of AI in Processing and Analysing Vast Datasets -- 7.3 Predictive Analytics for CE Planning -- 7.4 Resource Tracking and Circular Supply Chain Optimization -- 7.5 AI-Enhanced Waste Management and Recycling -- 7.6 Product Design and Lifecycle Analysis -- 7.7 Behavioural Insights and Citizen Engagement -- 7.8 Regulatory Compliance and Policy Adaptation -- 7.9 Benefits and Challenges of AI-Enhanced CE in Smart Cities -- 7.10 Conclusion -- 7.10.1 Future Potential | |
505 | 8 | |a 7.10.2 Call for Collaborative Efforts -- References -- 8. Investigating the Role of Data Analytics and Artificial Intelligence in Optimizing Resource Efficiency in Smart Cities -- Abstract -- 8.1 Introduction -- 8.2 Literature Review -- 8.2.1 Smart City -- 8.2.2 Data Analytic and AI -- 8.2.3 Resource Efficiency -- 8.3 Discussion/Analysis -- 8.3.1 Category: Smart Transportation -- 8.3.2 Category: Smart Health -- 8.3.3 Category: Smart Energy -- 8.3.4 Category: Smart Safety -- 8.4 Conclusion -- 8.5 Implications and Scope for Future Work -- References -- 9. A Comprehensive Study on the Implications of ESG Performance Disclosure in the Promotion of Sustainable Development by Firms -- Abstract -- 9.1 Introduction -- 9.1.1 Research Gap and Relevance of Study -- 9.2 Importance of Corporate ESG Reporting -- 9.2.1 ESG Performance -- 9.2.2 Benefits of Good ESG Performance -- 9.2.3 Impact of ESG Reporting on Consumer Behaviour -- 9.3 Disclosure of ESG Performance as Corporate Responsibility -- 9.3.1 CSR and Profitability as Business Objectives -- 9.3.2 Promotion of Diversity and Inclusion as CSR -- 9.3.3 Determinants of ESG Disclosure -- 9.4 Initiatives Taken by Global Firms for Sustainable Development -- 9.4.1 Challenges for Corporate Sustainability Reporting -- 9.4.2 Accomplishing SDGs as Entrepreneurial Objectives -- 9.4.3 Sustainable Consumption and 4R -- 9.5 Triple Bottom Line Approach to Sustainability -- 9.5.1 Approach to People -- 9.5.2 Approach to Planet -- 9.5.3 Approach to Profit -- 9.6 Conclusion -- References -- 10. Exploring the Potential of Internet of Things (IoT) and Challenges in Enabling Circular Economy Practices in Smart Cities -- Abstract -- 10.1 Introduction -- 10.1.1 The Chapter Contributions -- 10.1.2 The Chapter Structure -- 10.2 Challenges in Achieving a CE -- 10.2.1 Technological Innovation -- 10.2.2 Economic Implications | |
505 | 8 | |a 10.2.3 Industrial Transformation -- 10.2.4 Behavioural Change -- 10.2.5 Equity, Constitution Justice -- 10.2.6 Natural Carbon Removal -- 10.3 Opportunities for Ecological Sustainability -- 10.3.1 Good Health and Well-Being Benefits -- 10.3.2 Energy Independence -- 10.3.3 Sustainable Transportation -- 10.3.4 Enhanced Resilience -- 10.3.5 Biodiversity Conservation -- 10.3.6 Social and Corporate Equity -- 10.3.7 Sustainable and Precision Agriculture -- 10.4 Impact in Environmental Context -- 10.4.1 Mitigating Climate Change -- 10.4.2 Air Quality Improvement -- 10.4.3 Renewable Energy Expansion -- 10.4.4 Carbon Removal and Capture -- 10.4.5 Conservation of Natural Habitats -- 10.4.6 Promotion -- 10.4.7 Sustainable Agriculture Practices -- 10.4.8 Enhanced Ecosystem Resilience -- 10.4.9 Global Leadership and Cooperation -- 10.5 Case Studies -- 10.5.1 Wind Power and Energy Transition (Denmark) -- 10.5.2 Energiewende (Germany) -- 10.5.3 Renewable Energy Success (Costa Rica) -- 10.5.4 Commitment to Net-Zero Emissions (Google) -- 10.6 Future Research Trends and Recommendations -- 10.6.1 Advanced Clean Energy Technologies -- 10.6.2 Grid Integration and Energy Storage -- 10.6.3 Carbon Capture and Removal Technologies -- 10.6.4 and Sustainable Materials -- 10.6.5 Social and Behavioural Change -- 10.6.6 Environmental and Equity Justice -- 10.7 Conclusion -- References -- 11. Analyzing the Research Landscape on Circular Economy in Smart Cities With Available Barriers and Challenges -- Abstract -- 11.1 Introduction -- 11.2 Methodology -- 11.3 Results -- 11.3.1 Descriptive Analysis -- 11.3.1.1 Main Information -- 11.3.1.2 Scientific Annual Production and Average Total Citation (TC) Per Year -- 11.3.1.3 Most Cited and Relevant Sources and Citations -- 11.3.1.4 Most Relevant Affiliations and Countries -- 11.3.2 Content Analysis -- 11.3.2.1 Keyword Analysis | |
505 | 8 | |a 11.3.2.2 Thematic Analysis | |
520 | |a Addressing resource depletion and environmental concerns for sustainable urban living, Smart Cities and Circular Economyunveils the transformative potential and challenges of integrating these ideas while emphasizing environmental, social, and economic benefits | ||
650 | 4 | |a Smart cities | |
650 | 0 | 7 | |a Smart City |0 (DE-588)1061057097 |2 gnd |9 rswk-swf |
650 | 0 | 7 | |a Kreislaufwirtschaft |0 (DE-588)4361327-5 |2 gnd |9 rswk-swf |
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700 | 1 | |a Chatterjee, Prasenjit |e Sonstige |4 oth | |
700 | 1 | |a Nallapaneni, Manoj Kumar |e Sonstige |4 oth | |
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Datensatz im Suchindex
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any_adam_object | |
author | Kandpal, Vinay |
author_facet | Kandpal, Vinay |
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contents | Cover -- Smart Cities and Circular Economy -- Smart Cities and Circular Economy: The Future of Sustainable Urban Development -- Copyright Page -- Contents -- About the Editors -- List of Contributors -- Preface -- Acknowledgements -- 1. The Human-Centred Workplace in Industry 4.0: Cultivating Well-Being and Engagement -- Abstract -- 1.1 Introduction -- 1.1.1 Background and Context -- 1.1.2 Significance of Human-Centred Workplaces in Industry 4.0 -- 1.1.3 Purpose and Scope of the Conceptual Paper -- 1.2 Ergonomic Workspaces in the Digital Age -- 1.2.1 Defining Ergonomic Workspaces -- 1.2.2 Profound Impact on Well-Being and Productivity -- 1.3 Autonomy and Collaboration: Empowering Employees in Industry 4.0 -- 1.4 Case Studies and Practical Implementations -- 1.4.1 Case Study 1: Spotify's Agile Squads -- 1.4.2 Case Study 2: Siemens' Factory of the Future -- 1.5 Conclusion -- References -- 2. A Bibliometric Analysis on the Integrating Smart Cities and the Circular Economy: Mapping the Landscape of an Emerging I ... -- Abstract -- 2.1 Introduction -- 2.2 Methodology -- 2.2.1 Data Collection -- 2.2.2 Identification of Research Gaps -- 2.3 Data Analysis and Result -- 2.3.1 Top Journals, Authors and Countries -- 2.3.2 Top Key Areas of Smart Cities and CE -- 2.3.3 Top Co-Authorship Analysis -- 2.4 Results -- 2.5 Discussion -- 2.6 Theoretical Implementations -- 2.7 Limitations -- 2.8 Conclusion -- 2.9 Future Work -- References -- 3. Developing a Circular Economy in Ho Chi Minh City: A Content Analysis-Based SWOT Analysis -- Abstract -- 3.1 Introduction -- 3.2 Theoretical Framework on CE -- 3.3 Case Studies Around the World -- 3.3.1 Amsterdam, Netherlands -- 3.3.2 Circular Textile Industry -- 3.3.3 Amsterdam Circular Innovation Programme -- 3.3.4 Circular Construction Practices -- 3.3.5 Seoul, South Korea -- 3.3.5.1 Zero Waste and Resource Circulation Plan 3.3.5.2 Sharing Economy in Seoul -- 3.3.5.3 Industrial Symbiosis (IS) -- 3.4 Methodology -- 3.4.1 Design -- 3.4.2 Sample -- 3.4.3 Data Analysis Procedure -- 3.5 SWOT Analysis of HCMC in Implementing CE -- 3.5.1 Strength -- 3.5.2 Weaknesses -- 3.5.3 Opportunity -- 3.5.4 Threats -- 3.6 Policy Implications -- 3.7 Conclusion -- References -- 4. Role of Internet of Things (IoT) in Enabling Circular Economy in Smart Cities -- Abstract -- 4.1 Introduction -- 4.1.1 Linear Economy vs CE -- 4.1.2 Symbiosis Between IoT and CE -- 4.1.3 Industry 4.0 Scenario in CE -- 4.2 CE-IoT Architecture for Smart City -- 4.3 Opportunities and Challenges in Implementing IoT-CE Infrastructure for a Smart and Sustainable Future (Nižetić et al., ... -- 4.4 Conclusion -- References -- 5. Exploring Challenges of Circular Economy Initiatives for Smart Cities -- Abstract -- 5.1 Introduction -- 5.2 Different Phases of Industrial Revolution -- 5.3 Legal Frameworks for Circular Economy Initiatives -- 5.4 Case Study -- 5.4.1 Amsterdam, Netherlands -- 5.4.2 Case Study: Columbian Waste Management System -- 5.5 Product Design -- 5.6 Remanufacturing -- 5.7 PPP Model in Suzhou, China -- 5.8 Conclusion -- References -- 6. Integrating Circular Economy in Smart Cities: Challenges and Pathways to Sustainable Urban Development -- Abstract -- 6.1 Introduction -- 6.1.1 Emergence and Evolution of Concepts -- 6.1.2 Integration of Smart Cities and Circular Economies -- 6.1.3 Challenges in Implementation -- 6.1.4 Overcoming the Barriers -- 6.1.5 Research Scope and Contributions -- 6.2 Smart City Technologies and Circular Economy Implementation -- 6.2.1 CE in Urban Context -- 6.2.2 Conceptual Framework for CE in Smart Cities -- 6.2.3 Barriers and Challenges to Implementation -- 6.3 Case Studies and Comparative Analysis -- 6.3.1 European Context: Implementation in Smart Cities 6.3.2 Global Perspectives: Comparative Analysis -- 6.4 Comparative Insights -- 6.5 Strategies for Overcoming Barriers -- 6.5.1 Policy Recommendations -- 6.5.2 Technological Innovations -- 6.5.3 Enhancing CE Infrastructure -- 6.5.4 Cross-Sector Collaboration -- 6.5.5 Leveraging Digital Platforms -- 6.6 Stakeholder Engagement and Community Involvement -- 6.7 Future Directions and Research Opportunities -- 6.7.1 Unexplored Areas in Smart Cities and CEs -- 6.7.2 Emerging Trends in Smart City Technologies and CE Principles -- 6.8 Conclusion -- References -- 7. AI-Enabled Circular Economy Management for Sustainable Smart Cities: Integrating Artificial Intelligence in Resource Opt ... -- Abstract -- 7.1 Introduction -- 7.1.1 Background and Context of CE in Smart Cities -- 7.1.2 Research Objectives and Scope -- 7.1.2.1 Research Objectives -- 7.1.2.2 Research Scope -- 7.1.3 Rationale for Integrating AI Technologies Into CE Practices -- 7.1.3.1 Complex Data Handling and Analysis -- 7.1.3.2 Predictive Capabilities for Optimization -- 7.1.3.3 Efficiency in Circular Supply Chains -- 7.1.3.4 Enhanced Waste Management -- 7.1.3.5 Sustainable Product Design -- 7.1.3.6 Citizen Engagement and Behaviour Analysis -- 7.1.3.7 Policy Effectiveness and Adaptation -- 7.2 AI-Driven Data Collection and Analysis -- 7.2.1 Explanation of IoT Sensors and Data Collection Mechanisms -- 7.2.2 Role of AI in Processing and Analysing Vast Datasets -- 7.3 Predictive Analytics for CE Planning -- 7.4 Resource Tracking and Circular Supply Chain Optimization -- 7.5 AI-Enhanced Waste Management and Recycling -- 7.6 Product Design and Lifecycle Analysis -- 7.7 Behavioural Insights and Citizen Engagement -- 7.8 Regulatory Compliance and Policy Adaptation -- 7.9 Benefits and Challenges of AI-Enhanced CE in Smart Cities -- 7.10 Conclusion -- 7.10.1 Future Potential 7.10.2 Call for Collaborative Efforts -- References -- 8. Investigating the Role of Data Analytics and Artificial Intelligence in Optimizing Resource Efficiency in Smart Cities -- Abstract -- 8.1 Introduction -- 8.2 Literature Review -- 8.2.1 Smart City -- 8.2.2 Data Analytic and AI -- 8.2.3 Resource Efficiency -- 8.3 Discussion/Analysis -- 8.3.1 Category: Smart Transportation -- 8.3.2 Category: Smart Health -- 8.3.3 Category: Smart Energy -- 8.3.4 Category: Smart Safety -- 8.4 Conclusion -- 8.5 Implications and Scope for Future Work -- References -- 9. A Comprehensive Study on the Implications of ESG Performance Disclosure in the Promotion of Sustainable Development by Firms -- Abstract -- 9.1 Introduction -- 9.1.1 Research Gap and Relevance of Study -- 9.2 Importance of Corporate ESG Reporting -- 9.2.1 ESG Performance -- 9.2.2 Benefits of Good ESG Performance -- 9.2.3 Impact of ESG Reporting on Consumer Behaviour -- 9.3 Disclosure of ESG Performance as Corporate Responsibility -- 9.3.1 CSR and Profitability as Business Objectives -- 9.3.2 Promotion of Diversity and Inclusion as CSR -- 9.3.3 Determinants of ESG Disclosure -- 9.4 Initiatives Taken by Global Firms for Sustainable Development -- 9.4.1 Challenges for Corporate Sustainability Reporting -- 9.4.2 Accomplishing SDGs as Entrepreneurial Objectives -- 9.4.3 Sustainable Consumption and 4R -- 9.5 Triple Bottom Line Approach to Sustainability -- 9.5.1 Approach to People -- 9.5.2 Approach to Planet -- 9.5.3 Approach to Profit -- 9.6 Conclusion -- References -- 10. Exploring the Potential of Internet of Things (IoT) and Challenges in Enabling Circular Economy Practices in Smart Cities -- Abstract -- 10.1 Introduction -- 10.1.1 The Chapter Contributions -- 10.1.2 The Chapter Structure -- 10.2 Challenges in Achieving a CE -- 10.2.1 Technological Innovation -- 10.2.2 Economic Implications 10.2.3 Industrial Transformation -- 10.2.4 Behavioural Change -- 10.2.5 Equity, Constitution Justice -- 10.2.6 Natural Carbon Removal -- 10.3 Opportunities for Ecological Sustainability -- 10.3.1 Good Health and Well-Being Benefits -- 10.3.2 Energy Independence -- 10.3.3 Sustainable Transportation -- 10.3.4 Enhanced Resilience -- 10.3.5 Biodiversity Conservation -- 10.3.6 Social and Corporate Equity -- 10.3.7 Sustainable and Precision Agriculture -- 10.4 Impact in Environmental Context -- 10.4.1 Mitigating Climate Change -- 10.4.2 Air Quality Improvement -- 10.4.3 Renewable Energy Expansion -- 10.4.4 Carbon Removal and Capture -- 10.4.5 Conservation of Natural Habitats -- 10.4.6 Promotion -- 10.4.7 Sustainable Agriculture Practices -- 10.4.8 Enhanced Ecosystem Resilience -- 10.4.9 Global Leadership and Cooperation -- 10.5 Case Studies -- 10.5.1 Wind Power and Energy Transition (Denmark) -- 10.5.2 Energiewende (Germany) -- 10.5.3 Renewable Energy Success (Costa Rica) -- 10.5.4 Commitment to Net-Zero Emissions (Google) -- 10.6 Future Research Trends and Recommendations -- 10.6.1 Advanced Clean Energy Technologies -- 10.6.2 Grid Integration and Energy Storage -- 10.6.3 Carbon Capture and Removal Technologies -- 10.6.4 and Sustainable Materials -- 10.6.5 Social and Behavioural Change -- 10.6.6 Environmental and Equity Justice -- 10.7 Conclusion -- References -- 11. Analyzing the Research Landscape on Circular Economy in Smart Cities With Available Barriers and Challenges -- Abstract -- 11.1 Introduction -- 11.2 Methodology -- 11.3 Results -- 11.3.1 Descriptive Analysis -- 11.3.1.1 Main Information -- 11.3.1.2 Scientific Annual Production and Average Total Citation (TC) Per Year -- 11.3.1.3 Most Cited and Relevant Sources and Citations -- 11.3.1.4 Most Relevant Affiliations and Countries -- 11.3.2 Content Analysis -- 11.3.2.1 Keyword Analysis 11.3.2.2 Thematic Analysis |
ctrlnum | (ZDB-30-PQE)EBC31277817 (ZDB-30-PAD)EBC31277817 (ZDB-89-EBL)EBL31277817 (OCoLC)1455114835 (DE-599)BVBBV050102277 |
dewey-full | 380 |
dewey-hundreds | 300 - Social sciences |
dewey-ones | 380 - Commerce, communications, transportation |
dewey-raw | 380 |
dewey-search | 380 |
dewey-sort | 3380 |
dewey-tens | 380 - Commerce, communications, transportation |
discipline | Wirtschaftswissenschaften |
edition | 1st ed |
format | Electronic eBook |
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The Human-Centred Workplace in Industry 4.0: Cultivating Well-Being and Engagement -- Abstract -- 1.1 Introduction -- 1.1.1 Background and Context -- 1.1.2 Significance of Human-Centred Workplaces in Industry 4.0 -- 1.1.3 Purpose and Scope of the Conceptual Paper -- 1.2 Ergonomic Workspaces in the Digital Age -- 1.2.1 Defining Ergonomic Workspaces -- 1.2.2 Profound Impact on Well-Being and Productivity -- 1.3 Autonomy and Collaboration: Empowering Employees in Industry 4.0 -- 1.4 Case Studies and Practical Implementations -- 1.4.1 Case Study 1: Spotify's Agile Squads -- 1.4.2 Case Study 2: Siemens' Factory of the Future -- 1.5 Conclusion -- References -- 2. A Bibliometric Analysis on the Integrating Smart Cities and the Circular Economy: Mapping the Landscape of an Emerging I ... -- Abstract -- 2.1 Introduction -- 2.2 Methodology -- 2.2.1 Data Collection -- 2.2.2 Identification of Research Gaps -- 2.3 Data Analysis and Result -- 2.3.1 Top Journals, Authors and Countries -- 2.3.2 Top Key Areas of Smart Cities and CE -- 2.3.3 Top Co-Authorship Analysis -- 2.4 Results -- 2.5 Discussion -- 2.6 Theoretical Implementations -- 2.7 Limitations -- 2.8 Conclusion -- 2.9 Future Work -- References -- 3. Developing a Circular Economy in Ho Chi Minh City: A Content Analysis-Based SWOT Analysis -- Abstract -- 3.1 Introduction -- 3.2 Theoretical Framework on CE -- 3.3 Case Studies Around the World -- 3.3.1 Amsterdam, Netherlands -- 3.3.2 Circular Textile Industry -- 3.3.3 Amsterdam Circular Innovation Programme -- 3.3.4 Circular Construction Practices -- 3.3.5 Seoul, South Korea -- 3.3.5.1 Zero Waste and Resource Circulation Plan</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.3.5.2 Sharing Economy in Seoul -- 3.3.5.3 Industrial Symbiosis (IS) -- 3.4 Methodology -- 3.4.1 Design -- 3.4.2 Sample -- 3.4.3 Data Analysis Procedure -- 3.5 SWOT Analysis of HCMC in Implementing CE -- 3.5.1 Strength -- 3.5.2 Weaknesses -- 3.5.3 Opportunity -- 3.5.4 Threats -- 3.6 Policy Implications -- 3.7 Conclusion -- References -- 4. Role of Internet of Things (IoT) in Enabling Circular Economy in Smart Cities -- Abstract -- 4.1 Introduction -- 4.1.1 Linear Economy vs CE -- 4.1.2 Symbiosis Between IoT and CE -- 4.1.3 Industry 4.0 Scenario in CE -- 4.2 CE-IoT Architecture for Smart City -- 4.3 Opportunities and Challenges in Implementing IoT-CE Infrastructure for a Smart and Sustainable Future (Nižetić et al., ... -- 4.4 Conclusion -- References -- 5. Exploring Challenges of Circular Economy Initiatives for Smart Cities -- Abstract -- 5.1 Introduction -- 5.2 Different Phases of Industrial Revolution -- 5.3 Legal Frameworks for Circular Economy Initiatives -- 5.4 Case Study -- 5.4.1 Amsterdam, Netherlands -- 5.4.2 Case Study: Columbian Waste Management System -- 5.5 Product Design -- 5.6 Remanufacturing -- 5.7 PPP Model in Suzhou, China -- 5.8 Conclusion -- References -- 6. Integrating Circular Economy in Smart Cities: Challenges and Pathways to Sustainable Urban Development -- Abstract -- 6.1 Introduction -- 6.1.1 Emergence and Evolution of Concepts -- 6.1.2 Integration of Smart Cities and Circular Economies -- 6.1.3 Challenges in Implementation -- 6.1.4 Overcoming the Barriers -- 6.1.5 Research Scope and Contributions -- 6.2 Smart City Technologies and Circular Economy Implementation -- 6.2.1 CE in Urban Context -- 6.2.2 Conceptual Framework for CE in Smart Cities -- 6.2.3 Barriers and Challenges to Implementation -- 6.3 Case Studies and Comparative Analysis -- 6.3.1 European Context: Implementation in Smart Cities</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">6.3.2 Global Perspectives: Comparative Analysis -- 6.4 Comparative Insights -- 6.5 Strategies for Overcoming Barriers -- 6.5.1 Policy Recommendations -- 6.5.2 Technological Innovations -- 6.5.3 Enhancing CE Infrastructure -- 6.5.4 Cross-Sector Collaboration -- 6.5.5 Leveraging Digital Platforms -- 6.6 Stakeholder Engagement and Community Involvement -- 6.7 Future Directions and Research Opportunities -- 6.7.1 Unexplored Areas in Smart Cities and CEs -- 6.7.2 Emerging Trends in Smart City Technologies and CE Principles -- 6.8 Conclusion -- References -- 7. AI-Enabled Circular Economy Management for Sustainable Smart Cities: Integrating Artificial Intelligence in Resource Opt ... -- Abstract -- 7.1 Introduction -- 7.1.1 Background and Context of CE in Smart Cities -- 7.1.2 Research Objectives and Scope -- 7.1.2.1 Research Objectives -- 7.1.2.2 Research Scope -- 7.1.3 Rationale for Integrating AI Technologies Into CE Practices -- 7.1.3.1 Complex Data Handling and Analysis -- 7.1.3.2 Predictive Capabilities for Optimization -- 7.1.3.3 Efficiency in Circular Supply Chains -- 7.1.3.4 Enhanced Waste Management -- 7.1.3.5 Sustainable Product Design -- 7.1.3.6 Citizen Engagement and Behaviour Analysis -- 7.1.3.7 Policy Effectiveness and Adaptation -- 7.2 AI-Driven Data Collection and Analysis -- 7.2.1 Explanation of IoT Sensors and Data Collection Mechanisms -- 7.2.2 Role of AI in Processing and Analysing Vast Datasets -- 7.3 Predictive Analytics for CE Planning -- 7.4 Resource Tracking and Circular Supply Chain Optimization -- 7.5 AI-Enhanced Waste Management and Recycling -- 7.6 Product Design and Lifecycle Analysis -- 7.7 Behavioural Insights and Citizen Engagement -- 7.8 Regulatory Compliance and Policy Adaptation -- 7.9 Benefits and Challenges of AI-Enhanced CE in Smart Cities -- 7.10 Conclusion -- 7.10.1 Future Potential</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.10.2 Call for Collaborative Efforts -- References -- 8. Investigating the Role of Data Analytics and Artificial Intelligence in Optimizing Resource Efficiency in Smart Cities -- Abstract -- 8.1 Introduction -- 8.2 Literature Review -- 8.2.1 Smart City -- 8.2.2 Data Analytic and AI -- 8.2.3 Resource Efficiency -- 8.3 Discussion/Analysis -- 8.3.1 Category: Smart Transportation -- 8.3.2 Category: Smart Health -- 8.3.3 Category: Smart Energy -- 8.3.4 Category: Smart Safety -- 8.4 Conclusion -- 8.5 Implications and Scope for Future Work -- References -- 9. A Comprehensive Study on the Implications of ESG Performance Disclosure in the Promotion of Sustainable Development by Firms -- Abstract -- 9.1 Introduction -- 9.1.1 Research Gap and Relevance of Study -- 9.2 Importance of Corporate ESG Reporting -- 9.2.1 ESG Performance -- 9.2.2 Benefits of Good ESG Performance -- 9.2.3 Impact of ESG Reporting on Consumer Behaviour -- 9.3 Disclosure of ESG Performance as Corporate Responsibility -- 9.3.1 CSR and Profitability as Business Objectives -- 9.3.2 Promotion of Diversity and Inclusion as CSR -- 9.3.3 Determinants of ESG Disclosure -- 9.4 Initiatives Taken by Global Firms for Sustainable Development -- 9.4.1 Challenges for Corporate Sustainability Reporting -- 9.4.2 Accomplishing SDGs as Entrepreneurial Objectives -- 9.4.3 Sustainable Consumption and 4R -- 9.5 Triple Bottom Line Approach to Sustainability -- 9.5.1 Approach to People -- 9.5.2 Approach to Planet -- 9.5.3 Approach to Profit -- 9.6 Conclusion -- References -- 10. Exploring the Potential of Internet of Things (IoT) and Challenges in Enabling Circular Economy Practices in Smart Cities -- Abstract -- 10.1 Introduction -- 10.1.1 The Chapter Contributions -- 10.1.2 The Chapter Structure -- 10.2 Challenges in Achieving a CE -- 10.2.1 Technological Innovation -- 10.2.2 Economic Implications</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">10.2.3 Industrial Transformation -- 10.2.4 Behavioural Change -- 10.2.5 Equity, Constitution Justice -- 10.2.6 Natural Carbon Removal -- 10.3 Opportunities for Ecological Sustainability -- 10.3.1 Good Health and Well-Being Benefits -- 10.3.2 Energy Independence -- 10.3.3 Sustainable Transportation -- 10.3.4 Enhanced Resilience -- 10.3.5 Biodiversity Conservation -- 10.3.6 Social and Corporate Equity -- 10.3.7 Sustainable and Precision Agriculture -- 10.4 Impact in Environmental Context -- 10.4.1 Mitigating Climate Change -- 10.4.2 Air Quality Improvement -- 10.4.3 Renewable Energy Expansion -- 10.4.4 Carbon Removal and Capture -- 10.4.5 Conservation of Natural Habitats -- 10.4.6 Promotion -- 10.4.7 Sustainable Agriculture Practices -- 10.4.8 Enhanced Ecosystem Resilience -- 10.4.9 Global Leadership and Cooperation -- 10.5 Case Studies -- 10.5.1 Wind Power and Energy Transition (Denmark) -- 10.5.2 Energiewende (Germany) -- 10.5.3 Renewable Energy Success (Costa Rica) -- 10.5.4 Commitment to Net-Zero Emissions (Google) -- 10.6 Future Research Trends and Recommendations -- 10.6.1 Advanced Clean Energy Technologies -- 10.6.2 Grid Integration and Energy Storage -- 10.6.3 Carbon Capture and Removal Technologies -- 10.6.4 and Sustainable Materials -- 10.6.5 Social and Behavioural Change -- 10.6.6 Environmental and Equity Justice -- 10.7 Conclusion -- References -- 11. Analyzing the Research Landscape on Circular Economy in Smart Cities With Available Barriers and Challenges -- Abstract -- 11.1 Introduction -- 11.2 Methodology -- 11.3 Results -- 11.3.1 Descriptive Analysis -- 11.3.1.1 Main Information -- 11.3.1.2 Scientific Annual Production and Average Total Citation (TC) Per Year -- 11.3.1.3 Most Cited and Relevant Sources and Citations -- 11.3.1.4 Most Relevant Affiliations and Countries -- 11.3.2 Content Analysis -- 11.3.2.1 Keyword Analysis</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">11.3.2.2 Thematic Analysis</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Addressing resource depletion and environmental concerns for sustainable urban living, Smart Cities and Circular Economyunveils the transformative potential and challenges of integrating these ideas while emphasizing environmental, social, and economic benefits</subfield></datafield><datafield tag="650" ind1=" " ind2="4"><subfield code="a">Smart cities</subfield></datafield><datafield tag="650" ind1="0" ind2="7"><subfield code="a">Smart City</subfield><subfield code="0">(DE-588)1061057097</subfield><subfield code="2">gnd</subfield><subfield code="9">rswk-swf</subfield></datafield><datafield tag="650" ind1="0" ind2="7"><subfield code="a">Kreislaufwirtschaft</subfield><subfield code="0">(DE-588)4361327-5</subfield><subfield code="2">gnd</subfield><subfield code="9">rswk-swf</subfield></datafield><datafield tag="689" ind1="0" ind2="0"><subfield code="a">Kreislaufwirtschaft</subfield><subfield code="0">(DE-588)4361327-5</subfield><subfield code="D">s</subfield></datafield><datafield tag="689" ind1="0" ind2="1"><subfield code="a">Smart City</subfield><subfield code="0">(DE-588)1061057097</subfield><subfield code="D">s</subfield></datafield><datafield tag="689" ind1="0" ind2=" "><subfield code="5">DE-604</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Santibanez-Gonzalez, Ernesto</subfield><subfield code="e">Sonstige</subfield><subfield code="4">oth</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Chatterjee, Prasenjit</subfield><subfield code="e">Sonstige</subfield><subfield code="4">oth</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Nallapaneni, Manoj Kumar</subfield><subfield code="e">Sonstige</subfield><subfield code="4">oth</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Erscheint auch als</subfield><subfield code="n">Druck-Ausgabe</subfield><subfield code="a">Kandpal, Vinay</subfield><subfield code="t">Smart Cities and Circular Economy</subfield><subfield code="d">Leeds : Emerald Publishing Limited,c2024</subfield><subfield code="z">9781837979585</subfield></datafield><datafield tag="912" ind1=" " ind2=" "><subfield code="a">ZDB-30-PQE</subfield></datafield><datafield tag="943" ind1="1" ind2=" "><subfield code="a">oai:aleph.bib-bvb.de:BVB01-035439439</subfield></datafield><datafield tag="966" ind1="e" ind2=" "><subfield code="u">https://ebookcentral.proquest.com/lib/hwr/detail.action?docID=31277817</subfield><subfield code="l">DE-2070s</subfield><subfield code="p">ZDB-30-PQE</subfield><subfield code="q">HWR_PDA_PQE</subfield><subfield code="x">Aggregator</subfield><subfield code="3">Volltext</subfield></datafield></record></collection> |
id | DE-604.BV050102277 |
illustrated | Not Illustrated |
indexdate | 2025-01-10T17:14:26Z |
institution | BVB |
isbn | 9781837979592 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-035439439 |
oclc_num | 1455114835 |
open_access_boolean | |
owner | DE-2070s |
owner_facet | DE-2070s |
physical | 1 Online-Ressource (313 Seiten) |
psigel | ZDB-30-PQE ZDB-30-PQE HWR_PDA_PQE |
publishDate | 2024 |
publishDateSearch | 2024 |
publishDateSort | 2024 |
publisher | Emerald Publishing Limited |
record_format | marc |
spelling | Kandpal, Vinay Verfasser aut Smart Cities and Circular Economy The Future of Sustainable Urban Development 1st ed Leeds Emerald Publishing Limited 2024 ©2024 1 Online-Ressource (313 Seiten) txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Cover -- Smart Cities and Circular Economy -- Smart Cities and Circular Economy: The Future of Sustainable Urban Development -- Copyright Page -- Contents -- About the Editors -- List of Contributors -- Preface -- Acknowledgements -- 1. The Human-Centred Workplace in Industry 4.0: Cultivating Well-Being and Engagement -- Abstract -- 1.1 Introduction -- 1.1.1 Background and Context -- 1.1.2 Significance of Human-Centred Workplaces in Industry 4.0 -- 1.1.3 Purpose and Scope of the Conceptual Paper -- 1.2 Ergonomic Workspaces in the Digital Age -- 1.2.1 Defining Ergonomic Workspaces -- 1.2.2 Profound Impact on Well-Being and Productivity -- 1.3 Autonomy and Collaboration: Empowering Employees in Industry 4.0 -- 1.4 Case Studies and Practical Implementations -- 1.4.1 Case Study 1: Spotify's Agile Squads -- 1.4.2 Case Study 2: Siemens' Factory of the Future -- 1.5 Conclusion -- References -- 2. A Bibliometric Analysis on the Integrating Smart Cities and the Circular Economy: Mapping the Landscape of an Emerging I ... -- Abstract -- 2.1 Introduction -- 2.2 Methodology -- 2.2.1 Data Collection -- 2.2.2 Identification of Research Gaps -- 2.3 Data Analysis and Result -- 2.3.1 Top Journals, Authors and Countries -- 2.3.2 Top Key Areas of Smart Cities and CE -- 2.3.3 Top Co-Authorship Analysis -- 2.4 Results -- 2.5 Discussion -- 2.6 Theoretical Implementations -- 2.7 Limitations -- 2.8 Conclusion -- 2.9 Future Work -- References -- 3. Developing a Circular Economy in Ho Chi Minh City: A Content Analysis-Based SWOT Analysis -- Abstract -- 3.1 Introduction -- 3.2 Theoretical Framework on CE -- 3.3 Case Studies Around the World -- 3.3.1 Amsterdam, Netherlands -- 3.3.2 Circular Textile Industry -- 3.3.3 Amsterdam Circular Innovation Programme -- 3.3.4 Circular Construction Practices -- 3.3.5 Seoul, South Korea -- 3.3.5.1 Zero Waste and Resource Circulation Plan 3.3.5.2 Sharing Economy in Seoul -- 3.3.5.3 Industrial Symbiosis (IS) -- 3.4 Methodology -- 3.4.1 Design -- 3.4.2 Sample -- 3.4.3 Data Analysis Procedure -- 3.5 SWOT Analysis of HCMC in Implementing CE -- 3.5.1 Strength -- 3.5.2 Weaknesses -- 3.5.3 Opportunity -- 3.5.4 Threats -- 3.6 Policy Implications -- 3.7 Conclusion -- References -- 4. Role of Internet of Things (IoT) in Enabling Circular Economy in Smart Cities -- Abstract -- 4.1 Introduction -- 4.1.1 Linear Economy vs CE -- 4.1.2 Symbiosis Between IoT and CE -- 4.1.3 Industry 4.0 Scenario in CE -- 4.2 CE-IoT Architecture for Smart City -- 4.3 Opportunities and Challenges in Implementing IoT-CE Infrastructure for a Smart and Sustainable Future (Nižetić et al., ... -- 4.4 Conclusion -- References -- 5. Exploring Challenges of Circular Economy Initiatives for Smart Cities -- Abstract -- 5.1 Introduction -- 5.2 Different Phases of Industrial Revolution -- 5.3 Legal Frameworks for Circular Economy Initiatives -- 5.4 Case Study -- 5.4.1 Amsterdam, Netherlands -- 5.4.2 Case Study: Columbian Waste Management System -- 5.5 Product Design -- 5.6 Remanufacturing -- 5.7 PPP Model in Suzhou, China -- 5.8 Conclusion -- References -- 6. Integrating Circular Economy in Smart Cities: Challenges and Pathways to Sustainable Urban Development -- Abstract -- 6.1 Introduction -- 6.1.1 Emergence and Evolution of Concepts -- 6.1.2 Integration of Smart Cities and Circular Economies -- 6.1.3 Challenges in Implementation -- 6.1.4 Overcoming the Barriers -- 6.1.5 Research Scope and Contributions -- 6.2 Smart City Technologies and Circular Economy Implementation -- 6.2.1 CE in Urban Context -- 6.2.2 Conceptual Framework for CE in Smart Cities -- 6.2.3 Barriers and Challenges to Implementation -- 6.3 Case Studies and Comparative Analysis -- 6.3.1 European Context: Implementation in Smart Cities 6.3.2 Global Perspectives: Comparative Analysis -- 6.4 Comparative Insights -- 6.5 Strategies for Overcoming Barriers -- 6.5.1 Policy Recommendations -- 6.5.2 Technological Innovations -- 6.5.3 Enhancing CE Infrastructure -- 6.5.4 Cross-Sector Collaboration -- 6.5.5 Leveraging Digital Platforms -- 6.6 Stakeholder Engagement and Community Involvement -- 6.7 Future Directions and Research Opportunities -- 6.7.1 Unexplored Areas in Smart Cities and CEs -- 6.7.2 Emerging Trends in Smart City Technologies and CE Principles -- 6.8 Conclusion -- References -- 7. AI-Enabled Circular Economy Management for Sustainable Smart Cities: Integrating Artificial Intelligence in Resource Opt ... -- Abstract -- 7.1 Introduction -- 7.1.1 Background and Context of CE in Smart Cities -- 7.1.2 Research Objectives and Scope -- 7.1.2.1 Research Objectives -- 7.1.2.2 Research Scope -- 7.1.3 Rationale for Integrating AI Technologies Into CE Practices -- 7.1.3.1 Complex Data Handling and Analysis -- 7.1.3.2 Predictive Capabilities for Optimization -- 7.1.3.3 Efficiency in Circular Supply Chains -- 7.1.3.4 Enhanced Waste Management -- 7.1.3.5 Sustainable Product Design -- 7.1.3.6 Citizen Engagement and Behaviour Analysis -- 7.1.3.7 Policy Effectiveness and Adaptation -- 7.2 AI-Driven Data Collection and Analysis -- 7.2.1 Explanation of IoT Sensors and Data Collection Mechanisms -- 7.2.2 Role of AI in Processing and Analysing Vast Datasets -- 7.3 Predictive Analytics for CE Planning -- 7.4 Resource Tracking and Circular Supply Chain Optimization -- 7.5 AI-Enhanced Waste Management and Recycling -- 7.6 Product Design and Lifecycle Analysis -- 7.7 Behavioural Insights and Citizen Engagement -- 7.8 Regulatory Compliance and Policy Adaptation -- 7.9 Benefits and Challenges of AI-Enhanced CE in Smart Cities -- 7.10 Conclusion -- 7.10.1 Future Potential 7.10.2 Call for Collaborative Efforts -- References -- 8. Investigating the Role of Data Analytics and Artificial Intelligence in Optimizing Resource Efficiency in Smart Cities -- Abstract -- 8.1 Introduction -- 8.2 Literature Review -- 8.2.1 Smart City -- 8.2.2 Data Analytic and AI -- 8.2.3 Resource Efficiency -- 8.3 Discussion/Analysis -- 8.3.1 Category: Smart Transportation -- 8.3.2 Category: Smart Health -- 8.3.3 Category: Smart Energy -- 8.3.4 Category: Smart Safety -- 8.4 Conclusion -- 8.5 Implications and Scope for Future Work -- References -- 9. A Comprehensive Study on the Implications of ESG Performance Disclosure in the Promotion of Sustainable Development by Firms -- Abstract -- 9.1 Introduction -- 9.1.1 Research Gap and Relevance of Study -- 9.2 Importance of Corporate ESG Reporting -- 9.2.1 ESG Performance -- 9.2.2 Benefits of Good ESG Performance -- 9.2.3 Impact of ESG Reporting on Consumer Behaviour -- 9.3 Disclosure of ESG Performance as Corporate Responsibility -- 9.3.1 CSR and Profitability as Business Objectives -- 9.3.2 Promotion of Diversity and Inclusion as CSR -- 9.3.3 Determinants of ESG Disclosure -- 9.4 Initiatives Taken by Global Firms for Sustainable Development -- 9.4.1 Challenges for Corporate Sustainability Reporting -- 9.4.2 Accomplishing SDGs as Entrepreneurial Objectives -- 9.4.3 Sustainable Consumption and 4R -- 9.5 Triple Bottom Line Approach to Sustainability -- 9.5.1 Approach to People -- 9.5.2 Approach to Planet -- 9.5.3 Approach to Profit -- 9.6 Conclusion -- References -- 10. Exploring the Potential of Internet of Things (IoT) and Challenges in Enabling Circular Economy Practices in Smart Cities -- Abstract -- 10.1 Introduction -- 10.1.1 The Chapter Contributions -- 10.1.2 The Chapter Structure -- 10.2 Challenges in Achieving a CE -- 10.2.1 Technological Innovation -- 10.2.2 Economic Implications 10.2.3 Industrial Transformation -- 10.2.4 Behavioural Change -- 10.2.5 Equity, Constitution Justice -- 10.2.6 Natural Carbon Removal -- 10.3 Opportunities for Ecological Sustainability -- 10.3.1 Good Health and Well-Being Benefits -- 10.3.2 Energy Independence -- 10.3.3 Sustainable Transportation -- 10.3.4 Enhanced Resilience -- 10.3.5 Biodiversity Conservation -- 10.3.6 Social and Corporate Equity -- 10.3.7 Sustainable and Precision Agriculture -- 10.4 Impact in Environmental Context -- 10.4.1 Mitigating Climate Change -- 10.4.2 Air Quality Improvement -- 10.4.3 Renewable Energy Expansion -- 10.4.4 Carbon Removal and Capture -- 10.4.5 Conservation of Natural Habitats -- 10.4.6 Promotion -- 10.4.7 Sustainable Agriculture Practices -- 10.4.8 Enhanced Ecosystem Resilience -- 10.4.9 Global Leadership and Cooperation -- 10.5 Case Studies -- 10.5.1 Wind Power and Energy Transition (Denmark) -- 10.5.2 Energiewende (Germany) -- 10.5.3 Renewable Energy Success (Costa Rica) -- 10.5.4 Commitment to Net-Zero Emissions (Google) -- 10.6 Future Research Trends and Recommendations -- 10.6.1 Advanced Clean Energy Technologies -- 10.6.2 Grid Integration and Energy Storage -- 10.6.3 Carbon Capture and Removal Technologies -- 10.6.4 and Sustainable Materials -- 10.6.5 Social and Behavioural Change -- 10.6.6 Environmental and Equity Justice -- 10.7 Conclusion -- References -- 11. Analyzing the Research Landscape on Circular Economy in Smart Cities With Available Barriers and Challenges -- Abstract -- 11.1 Introduction -- 11.2 Methodology -- 11.3 Results -- 11.3.1 Descriptive Analysis -- 11.3.1.1 Main Information -- 11.3.1.2 Scientific Annual Production and Average Total Citation (TC) Per Year -- 11.3.1.3 Most Cited and Relevant Sources and Citations -- 11.3.1.4 Most Relevant Affiliations and Countries -- 11.3.2 Content Analysis -- 11.3.2.1 Keyword Analysis 11.3.2.2 Thematic Analysis Addressing resource depletion and environmental concerns for sustainable urban living, Smart Cities and Circular Economyunveils the transformative potential and challenges of integrating these ideas while emphasizing environmental, social, and economic benefits Smart cities Smart City (DE-588)1061057097 gnd rswk-swf Kreislaufwirtschaft (DE-588)4361327-5 gnd rswk-swf Kreislaufwirtschaft (DE-588)4361327-5 s Smart City (DE-588)1061057097 s DE-604 Santibanez-Gonzalez, Ernesto Sonstige oth Chatterjee, Prasenjit Sonstige oth Nallapaneni, Manoj Kumar Sonstige oth Erscheint auch als Druck-Ausgabe Kandpal, Vinay Smart Cities and Circular Economy Leeds : Emerald Publishing Limited,c2024 9781837979585 |
spellingShingle | Kandpal, Vinay Smart Cities and Circular Economy The Future of Sustainable Urban Development Cover -- Smart Cities and Circular Economy -- Smart Cities and Circular Economy: The Future of Sustainable Urban Development -- Copyright Page -- Contents -- About the Editors -- List of Contributors -- Preface -- Acknowledgements -- 1. The Human-Centred Workplace in Industry 4.0: Cultivating Well-Being and Engagement -- Abstract -- 1.1 Introduction -- 1.1.1 Background and Context -- 1.1.2 Significance of Human-Centred Workplaces in Industry 4.0 -- 1.1.3 Purpose and Scope of the Conceptual Paper -- 1.2 Ergonomic Workspaces in the Digital Age -- 1.2.1 Defining Ergonomic Workspaces -- 1.2.2 Profound Impact on Well-Being and Productivity -- 1.3 Autonomy and Collaboration: Empowering Employees in Industry 4.0 -- 1.4 Case Studies and Practical Implementations -- 1.4.1 Case Study 1: Spotify's Agile Squads -- 1.4.2 Case Study 2: Siemens' Factory of the Future -- 1.5 Conclusion -- References -- 2. A Bibliometric Analysis on the Integrating Smart Cities and the Circular Economy: Mapping the Landscape of an Emerging I ... -- Abstract -- 2.1 Introduction -- 2.2 Methodology -- 2.2.1 Data Collection -- 2.2.2 Identification of Research Gaps -- 2.3 Data Analysis and Result -- 2.3.1 Top Journals, Authors and Countries -- 2.3.2 Top Key Areas of Smart Cities and CE -- 2.3.3 Top Co-Authorship Analysis -- 2.4 Results -- 2.5 Discussion -- 2.6 Theoretical Implementations -- 2.7 Limitations -- 2.8 Conclusion -- 2.9 Future Work -- References -- 3. Developing a Circular Economy in Ho Chi Minh City: A Content Analysis-Based SWOT Analysis -- Abstract -- 3.1 Introduction -- 3.2 Theoretical Framework on CE -- 3.3 Case Studies Around the World -- 3.3.1 Amsterdam, Netherlands -- 3.3.2 Circular Textile Industry -- 3.3.3 Amsterdam Circular Innovation Programme -- 3.3.4 Circular Construction Practices -- 3.3.5 Seoul, South Korea -- 3.3.5.1 Zero Waste and Resource Circulation Plan 3.3.5.2 Sharing Economy in Seoul -- 3.3.5.3 Industrial Symbiosis (IS) -- 3.4 Methodology -- 3.4.1 Design -- 3.4.2 Sample -- 3.4.3 Data Analysis Procedure -- 3.5 SWOT Analysis of HCMC in Implementing CE -- 3.5.1 Strength -- 3.5.2 Weaknesses -- 3.5.3 Opportunity -- 3.5.4 Threats -- 3.6 Policy Implications -- 3.7 Conclusion -- References -- 4. Role of Internet of Things (IoT) in Enabling Circular Economy in Smart Cities -- Abstract -- 4.1 Introduction -- 4.1.1 Linear Economy vs CE -- 4.1.2 Symbiosis Between IoT and CE -- 4.1.3 Industry 4.0 Scenario in CE -- 4.2 CE-IoT Architecture for Smart City -- 4.3 Opportunities and Challenges in Implementing IoT-CE Infrastructure for a Smart and Sustainable Future (Nižetić et al., ... -- 4.4 Conclusion -- References -- 5. Exploring Challenges of Circular Economy Initiatives for Smart Cities -- Abstract -- 5.1 Introduction -- 5.2 Different Phases of Industrial Revolution -- 5.3 Legal Frameworks for Circular Economy Initiatives -- 5.4 Case Study -- 5.4.1 Amsterdam, Netherlands -- 5.4.2 Case Study: Columbian Waste Management System -- 5.5 Product Design -- 5.6 Remanufacturing -- 5.7 PPP Model in Suzhou, China -- 5.8 Conclusion -- References -- 6. Integrating Circular Economy in Smart Cities: Challenges and Pathways to Sustainable Urban Development -- Abstract -- 6.1 Introduction -- 6.1.1 Emergence and Evolution of Concepts -- 6.1.2 Integration of Smart Cities and Circular Economies -- 6.1.3 Challenges in Implementation -- 6.1.4 Overcoming the Barriers -- 6.1.5 Research Scope and Contributions -- 6.2 Smart City Technologies and Circular Economy Implementation -- 6.2.1 CE in Urban Context -- 6.2.2 Conceptual Framework for CE in Smart Cities -- 6.2.3 Barriers and Challenges to Implementation -- 6.3 Case Studies and Comparative Analysis -- 6.3.1 European Context: Implementation in Smart Cities 6.3.2 Global Perspectives: Comparative Analysis -- 6.4 Comparative Insights -- 6.5 Strategies for Overcoming Barriers -- 6.5.1 Policy Recommendations -- 6.5.2 Technological Innovations -- 6.5.3 Enhancing CE Infrastructure -- 6.5.4 Cross-Sector Collaboration -- 6.5.5 Leveraging Digital Platforms -- 6.6 Stakeholder Engagement and Community Involvement -- 6.7 Future Directions and Research Opportunities -- 6.7.1 Unexplored Areas in Smart Cities and CEs -- 6.7.2 Emerging Trends in Smart City Technologies and CE Principles -- 6.8 Conclusion -- References -- 7. AI-Enabled Circular Economy Management for Sustainable Smart Cities: Integrating Artificial Intelligence in Resource Opt ... -- Abstract -- 7.1 Introduction -- 7.1.1 Background and Context of CE in Smart Cities -- 7.1.2 Research Objectives and Scope -- 7.1.2.1 Research Objectives -- 7.1.2.2 Research Scope -- 7.1.3 Rationale for Integrating AI Technologies Into CE Practices -- 7.1.3.1 Complex Data Handling and Analysis -- 7.1.3.2 Predictive Capabilities for Optimization -- 7.1.3.3 Efficiency in Circular Supply Chains -- 7.1.3.4 Enhanced Waste Management -- 7.1.3.5 Sustainable Product Design -- 7.1.3.6 Citizen Engagement and Behaviour Analysis -- 7.1.3.7 Policy Effectiveness and Adaptation -- 7.2 AI-Driven Data Collection and Analysis -- 7.2.1 Explanation of IoT Sensors and Data Collection Mechanisms -- 7.2.2 Role of AI in Processing and Analysing Vast Datasets -- 7.3 Predictive Analytics for CE Planning -- 7.4 Resource Tracking and Circular Supply Chain Optimization -- 7.5 AI-Enhanced Waste Management and Recycling -- 7.6 Product Design and Lifecycle Analysis -- 7.7 Behavioural Insights and Citizen Engagement -- 7.8 Regulatory Compliance and Policy Adaptation -- 7.9 Benefits and Challenges of AI-Enhanced CE in Smart Cities -- 7.10 Conclusion -- 7.10.1 Future Potential 7.10.2 Call for Collaborative Efforts -- References -- 8. Investigating the Role of Data Analytics and Artificial Intelligence in Optimizing Resource Efficiency in Smart Cities -- Abstract -- 8.1 Introduction -- 8.2 Literature Review -- 8.2.1 Smart City -- 8.2.2 Data Analytic and AI -- 8.2.3 Resource Efficiency -- 8.3 Discussion/Analysis -- 8.3.1 Category: Smart Transportation -- 8.3.2 Category: Smart Health -- 8.3.3 Category: Smart Energy -- 8.3.4 Category: Smart Safety -- 8.4 Conclusion -- 8.5 Implications and Scope for Future Work -- References -- 9. A Comprehensive Study on the Implications of ESG Performance Disclosure in the Promotion of Sustainable Development by Firms -- Abstract -- 9.1 Introduction -- 9.1.1 Research Gap and Relevance of Study -- 9.2 Importance of Corporate ESG Reporting -- 9.2.1 ESG Performance -- 9.2.2 Benefits of Good ESG Performance -- 9.2.3 Impact of ESG Reporting on Consumer Behaviour -- 9.3 Disclosure of ESG Performance as Corporate Responsibility -- 9.3.1 CSR and Profitability as Business Objectives -- 9.3.2 Promotion of Diversity and Inclusion as CSR -- 9.3.3 Determinants of ESG Disclosure -- 9.4 Initiatives Taken by Global Firms for Sustainable Development -- 9.4.1 Challenges for Corporate Sustainability Reporting -- 9.4.2 Accomplishing SDGs as Entrepreneurial Objectives -- 9.4.3 Sustainable Consumption and 4R -- 9.5 Triple Bottom Line Approach to Sustainability -- 9.5.1 Approach to People -- 9.5.2 Approach to Planet -- 9.5.3 Approach to Profit -- 9.6 Conclusion -- References -- 10. Exploring the Potential of Internet of Things (IoT) and Challenges in Enabling Circular Economy Practices in Smart Cities -- Abstract -- 10.1 Introduction -- 10.1.1 The Chapter Contributions -- 10.1.2 The Chapter Structure -- 10.2 Challenges in Achieving a CE -- 10.2.1 Technological Innovation -- 10.2.2 Economic Implications 10.2.3 Industrial Transformation -- 10.2.4 Behavioural Change -- 10.2.5 Equity, Constitution Justice -- 10.2.6 Natural Carbon Removal -- 10.3 Opportunities for Ecological Sustainability -- 10.3.1 Good Health and Well-Being Benefits -- 10.3.2 Energy Independence -- 10.3.3 Sustainable Transportation -- 10.3.4 Enhanced Resilience -- 10.3.5 Biodiversity Conservation -- 10.3.6 Social and Corporate Equity -- 10.3.7 Sustainable and Precision Agriculture -- 10.4 Impact in Environmental Context -- 10.4.1 Mitigating Climate Change -- 10.4.2 Air Quality Improvement -- 10.4.3 Renewable Energy Expansion -- 10.4.4 Carbon Removal and Capture -- 10.4.5 Conservation of Natural Habitats -- 10.4.6 Promotion -- 10.4.7 Sustainable Agriculture Practices -- 10.4.8 Enhanced Ecosystem Resilience -- 10.4.9 Global Leadership and Cooperation -- 10.5 Case Studies -- 10.5.1 Wind Power and Energy Transition (Denmark) -- 10.5.2 Energiewende (Germany) -- 10.5.3 Renewable Energy Success (Costa Rica) -- 10.5.4 Commitment to Net-Zero Emissions (Google) -- 10.6 Future Research Trends and Recommendations -- 10.6.1 Advanced Clean Energy Technologies -- 10.6.2 Grid Integration and Energy Storage -- 10.6.3 Carbon Capture and Removal Technologies -- 10.6.4 and Sustainable Materials -- 10.6.5 Social and Behavioural Change -- 10.6.6 Environmental and Equity Justice -- 10.7 Conclusion -- References -- 11. Analyzing the Research Landscape on Circular Economy in Smart Cities With Available Barriers and Challenges -- Abstract -- 11.1 Introduction -- 11.2 Methodology -- 11.3 Results -- 11.3.1 Descriptive Analysis -- 11.3.1.1 Main Information -- 11.3.1.2 Scientific Annual Production and Average Total Citation (TC) Per Year -- 11.3.1.3 Most Cited and Relevant Sources and Citations -- 11.3.1.4 Most Relevant Affiliations and Countries -- 11.3.2 Content Analysis -- 11.3.2.1 Keyword Analysis 11.3.2.2 Thematic Analysis Smart cities Smart City (DE-588)1061057097 gnd Kreislaufwirtschaft (DE-588)4361327-5 gnd |
subject_GND | (DE-588)1061057097 (DE-588)4361327-5 |
title | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_auth | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_exact_search | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_full | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_fullStr | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_full_unstemmed | Smart Cities and Circular Economy The Future of Sustainable Urban Development |
title_short | Smart Cities and Circular Economy |
title_sort | smart cities and circular economy the future of sustainable urban development |
title_sub | The Future of Sustainable Urban Development |
topic | Smart cities Smart City (DE-588)1061057097 gnd Kreislaufwirtschaft (DE-588)4361327-5 gnd |
topic_facet | Smart cities Smart City Kreislaufwirtschaft |
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