Yamagata / Maruyama Urban Resilience
Softcover Nachdruck of the original 1. Auflage 2016
ISBN: 978-3-319-81972-3
Verlag: Springer, Berlin
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Buch, Englisch, Reihe: Advanced Sciences and Technologies for Security Applications
319 Seiten, Kartoniert, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 504 g
A Transformative Approach
Softcover Nachdruck of the original 1. Auflage 2016,
319 Seiten, Kartoniert, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 504 g
Reihe: Advanced Sciences and Technologies for Security Applications
ISBN: 978-3-319-81972-3
Verlag: Springer, Berlin
Seite exportieren
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- sofort versandfertig, Lieferfrist: 1-3 Werktage
The taxonomy can be broken down into threats, systems, resilience cycles and recovery types in the context of urban resilience. It starts with a discussion of systems resilience models, focusing on the central idea that resilience is a moving average of costs (a set of trajectories in a two-player game paradigm). The second section explores management issues, including planning, operating and emergency response in cities with specific examples such as land-use planning and carbon-neutral scenarios for urban planning. The next section focuses on urban dwellers and specific people-related issues in the context of resilience. Agent-based simulation of behaviour and perception-based resilience, as well as brand crisis management are representative examples of the topics discussed. A further section examines systems like public utilities – including managing power supplies, cyber-security issues and models for pandemics. It concludes with a discussion of the future challenges and risks facing complex systems, for example in resilient power grids, making it essential reading for a wide range of researchers and policymakers.
Part I. Systems Resilience, A 30,000 Feet View.- 1. Taxonomy and General Strategies for Resilience; H. Maruyama.- Part II. Planning Urban Resilience.- 2. Urban Economics Model for Land-Use Planning; Y. Yamagata et al.- 3. Modelling Urban Heatwave Risk in Adelaide, South Australia; S. Benger et al.- 4. Flood Risk Management in Cities; D. Murakami, Y.Yamagata.- 5. Land-Use Planning for Depopulating and Aging Society in Japan; A. Murayama.- Part III. Responding to Shocks.- 6. Perception-Based Resilience: Accounting for Human Perception in Resilience Thinking with Theoretic and Model Bases; R. Legaspi et al.- 7. Resilient Community Clustering: A Graph Theoretical Approach; K. Minami et al.- 8. Agent-based Modeling a Tool for Urban Resilience Research?; T. Bruderman et al.- 9. Urban Form and Energy Resilient Strategies: A Case Study of the Manhattan Grid; P. P. J. Yang, S.J. Quan.- 10. Disease outbreaks: Critical biological factors and control strategies; K. Kawashima et al.- Part IV. Measurement of Urban Resilience.- 11. Measurement of Urban Resilience; L. Ilmola.- 12. Computational Framework of Resilience; N. Schwind et al.- 13. Urban resilience assessment: Multiple dimensions, criteria, and indicators; A. Sharifi.- Part V. Future Challenges.- 14. Bridging People Back In: Crisis Planning and Response Embedded in Social Contexts; K. Thompson-Dyck et al.- 15. From Resilience to Transformation via a Regenerative Sustainability Development Path; M. Holden et al.
Research
The taxonomy can be broken down into threats, systems, resilience cycles and recovery types in the context of urban resilience. It starts with a discussion of systems resilience models, focusing on the central idea that resilience is a moving average of costs (a set of trajectories in a two-player game paradigm). The second section explores management issues, including planning, operating and emergency response in cities with specific examples such as land-use planning and carbon-neutral scenarios for urban planning. The next section focuses on urban dwellers and specific people-related issues in the context of resilience. Agent-based simulation of behaviour and perception-based resilience, as well as brand crisis management are representative examples of the topics discussed. A further section examines systems like public utilities – including managing power supplies, cyber-security issues and models for pandemics. It concludes with a discussion of the future challenges and risks facing complex systems, for example in resilient power grids, making it essential reading for a wide range of researchers and policymakers.
Part I. Systems Resilience, A 30,000 Feet View.- 1. Taxonomy and General Strategies for Resilience; H. Maruyama.- Part II. Planning Urban Resilience.- 2. Urban Economics Model for Land-Use Planning; Y. Yamagata et al.- 3. Modelling Urban Heatwave Risk in Adelaide, South Australia; S. Benger et al.- 4. Flood Risk Management in Cities; D. Murakami, Y.Yamagata.- 5. Land-Use Planning for Depopulating and Aging Society in Japan; A. Murayama.- Part III. Responding to Shocks.- 6. Perception-Based Resilience: Accounting for Human Perception in Resilience Thinking with Theoretic and Model Bases; R. Legaspi et al.- 7. Resilient Community Clustering: A Graph Theoretical Approach; K. Minami et al.- 8. Agent-based Modeling a Tool for Urban Resilience Research?; T. Bruderman et al.- 9. Urban Form and Energy Resilient Strategies: A Case Study of the Manhattan Grid; P. P. J. Yang, S.J. Quan.- 10. Disease outbreaks: Critical biological factors and control strategies; K. Kawashima et al.- Part IV. Measurement of Urban Resilience.- 11. Measurement of Urban Resilience; L. Ilmola.- 12. Computational Framework of Resilience; N. Schwind et al.- 13. Urban resilience assessment: Multiple dimensions, criteria, and indicators; A. Sharifi.- Part V. Future Challenges.- 14. Bridging People Back In: Crisis Planning and Response Embedded in Social Contexts; K. Thompson-Dyck et al.- 15. From Resilience to Transformation via a Regenerative Sustainability Development Path; M. Holden et al.
Research
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