Decision Making under Deep Uncertainty : : From Theory to Practice.

Decision Making under Deep Uncertainty : : From Theory to Practice.

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Marchau, Vincent A. W. J.
TeilnehmendeR:
Walker, Warren E.
Bloemen, Pieter J. T. M.
Popper, Steven W.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2019.
©2019.
Year of Publication:2019
Edition:1st ed.
Language:English
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Physical Description:1 online resource (408 pages)
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spelling Marchau, Vincent A. W. J.
Decision Making under Deep Uncertainty : From Theory to Practice.
1st ed.
Cham : Springer International Publishing AG, 2019.
©2019.
1 online resource (408 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 The Need for Considering Uncertainty in Decisionmaking -- 1.2 A Framework for Decision Support -- 1.3 Dealing with Uncertainty in Decisionmaking -- 1.4 Decisionmaking Under Deep Uncertainty -- 1.5 Generic Elements of DMDU Approaches-A Framework -- 1.6 An Introduction to the DMDU Tools and Approaches -- 1.7 Structure of the Book -- References -- DMDU Approaches -- 2 Robust Decision Making (RDM) -- 2.1 Introduction -- 2.2 RDM Foundations -- 2.3 RDM Process -- 2.4 Tools -- 2.5 Example: Carrots and Sticks for New Technology -- 2.5.1 Frame the Analysis -- 2.5.2 Perform Exploratory Uncertainty Analysis -- 2.5.3 Choose Initial Actions and Contingent Actions -- 2.5.4 Iterate and Re-Examine (RDM Steps 2, 3, and 5) -- 2.6 Recent Advances and Future Challenges -- References -- 3 Dynamic Adaptive Planning (DAP) -- 3.1 Introduction -- 3.2 The DAP Approach -- 3.3 A DAP Illustration: Strategic Planning for Schiphol Airport -- 3.4 Implementation and Adaptation -- 3.5 Conclusions -- References -- 4 Dynamic Adaptive Policy Pathways (DAPP) -- 4.1 Introduction -- 4.2 The DAPP Approach -- 4.3 A DAPP Illustration: Navigation along the Waas River -- 4.4 Under What Conditions Is This Approach Useful? -- 4.5 Recent Advances -- 4.6 Links with Other DMDU Approaches -- 4.7 Future Challenges -- References -- 5 Info-Gap Decision Theory (IG) -- 5.1 Info-Gap Theory: A First Look -- 5.2 IG Robustness: Methodological Outline -- 5.2.1 Three Components of IG Robust Satisficing -- 5.2.2 IG Robustness -- 5.2.3 Prioritization of Competing Decisions -- 5.2.4 How to Evaluate Robustness: Qualitative or Quantitative? -- 5.3 IG Robustness: A Qualitative Example -- 5.3.1 Five Conceptual Proxies for Robustness -- 5.3.2 Simple Qualitative Example: Nuclear Weapon Safety.
5.4 IG Robustness and Opportuneness: A Quantitative Example -- 5.4.1 IG Robustness -- 5.4.2 Discussion of the Robustness Results -- 5.4.3 IG Opportuneness -- 5.4.4 Discussion of Opportuneness Results -- 5.4.5 An Innovation Dilemma -- 5.4.6 Functional Uncertainty -- 5.5 Conclusion and Future Challenges -- References -- 6 Engineering Options Analysis (EOA) -- 6.1 Introduction -- 6.2 Methodology of Engineering Options Analysis -- 6.2.1 Setting the Scene -- 6.2.2 Definition of an Option -- 6.2.3 Main Steps of Analysis -- 6.2.4 Details of Each Step -- 6.3 A Simple Example: A Parking Garage -- 6.4 Contrasting Engineering Options Analysis with Real Options Analysis -- 6.4.1 Different Professional Contexts -- 6.4.2 Some Specific Differences -- 6.5 Contrasting Engineering Options Analysis with Other Approaches in This Book -- 6.5.1 Engineering Options Analysis as a Planning Approach -- 6.5.2 Engineering Options Analysis as a Computational Decision-Support Tool -- 6.6 Conclusions -- References -- DMDU Applications -- 7 Robust Decision Making (RDM): Application to Water Planning and Climate Policy -- 7.1 Long-Term Planning for Water Resources and Global Climate Technology Transfer -- 7.2 Review of Robust Decision Making -- 7.2.1 Summary of Robust Decision Making -- 7.3 Case Study 1: Using RDM to Support Long-Term Water Resources Planning for the Colorado River Basin -- 7.3.1 Decision Framing for Colorado River Basin Analyses -- 7.3.2 Vulnerabilities of Current Colorado River Basin Management -- 7.3.3 Design and Simulation of Adaptive Strategies -- 7.3.4 Evaluating Regret of Strategies Across Futures -- 7.3.5 Updating Beliefs About the Future to Guide Adaptation -- 7.3.6 Robust Adaptive Strategies, and Implementation Pathways -- 7.3.7 Need for Transformative Solutions -- 7.4 Case Study 2: Using RDM to Develop Climate Mitigation Technology Diffusion Policies.
7.4.1 Decision Framing for Climate Technology Policy Analysis -- 7.4.2 Modeling International Technological Change -- 7.4.3 Evaluating Policies Across a Wide Range of Plausible Futures -- 7.4.4 Key Vulnerabilities of Climate Technology Policies -- 7.4.5 Developing a Robust Adaptive Climate Technology Policy -- 7.5 Reflections -- References -- 8 Dynamic Adaptive Planning (DAP): The Case of Intelligent Speed Adaptation -- 8.1 Introduction to the Approach -- 8.2 Introduction to the Case -- 8.3 Reason for Choosing the DAP Approach -- 8.4 Methods for Applying DAP -- 8.5 Setting up a DAP Workshop on ISA Implementation -- 8.6 Results of the DAP-ISA Workshop -- 8.7 Evaluation of the DAP Approach -- 8.8 Lessons Learned About the Process of Developing Dynamic Adaptive Plans -- 8.9 Conclusions -- References -- 9 Dynamic Adaptive Policy Pathways (DAPP): From Theory to Practice -- 9.1 Introduction to the Case -- 9.2 Reason for Choosing DAPP -- 9.3 Setup of Approach for Case Study in Practice -- 9.4 Applying DAPP in Practice -- 9.5 Results of Applying the Approach -- 9.6 Reflections (Lessons Learned) for Practice and Theory -- References -- 10 Info-Gap (IG): Robust Design of a Mechanical Latch -- 10.1 Introduction -- 10.2 Application of Info-Gap Robustness for Policymaking -- 10.3 Formulation for the Design of a Mechanical Latch -- 10.4 The Info-Gap Robust Design Methodology -- 10.5 Assessment of Two Competing Designs -- 10.6 Concluding Remarks -- References -- 11 Engineering Options Analysis (EOA): Applications -- 11.1 Case Study 1: Liquid Natural Gas in Victoria State, Australia -- 11.2 Setup of the EOA Approach for the LNG Case Study -- 11.2.1 Design Alternatives -- 11.2.2 Parameter Values -- 11.2.3 Characterization of Sources of Uncertainty -- 11.3 Results from Applying the EOA Approach to the LNG Case Study -- 11.3.1 Fixed Design.
11.3.2 Performance of Fixed Design Under Uncertainty -- 11.3.3 Flexible Strategies -- 11.3.4 Flexible Strategy-Timing (But No Learning) -- 11.3.5 Flexible Strategy-Timing and Location (But No Learning) -- 11.3.6 Flexible Strategy-Learning -- 11.3.7 Learning Combined with Economies of Scale -- 11.3.8 Multi-criteria Comparison of Strategies -- 11.3.9 Guidance from Applying EOA to This Case -- 11.4 Case Study 2: Water Management Infrastructure in the Netherlands: IJmuiden Pumping Station -- 11.5 Setup of the EOA Approach for the IJmuiden Pumping Station -- 11.5.1 Characterization of Sources of Uncertainty -- 11.5.2 Design Alternatives -- 11.5.3 Details of the Analysis -- 11.6 Results from Applying the EOA Approach to the IJmuiden Pumping Station -- 11.6.1 Inland Water Level Regulation Function -- 11.6.2 Flood Defense Function -- 11.6.3 Guidance from Applying EOA to This Case -- 11.7 Conclusions and Reflections for Practice and Theory -- References -- DMDU-Implementation Processes -- 12 Decision Scaling (DS): Decision Support for Climate Change -- 12.1 Introduction -- 12.2 Technical Approach -- 12.2.1 Overview -- 12.2.2 Step 1. Decision Framing -- 12.2.3 Step 2. Climate Stress Test -- 12.2.4 Step 3. Estimation of Climate-Informed Risks -- 12.3 Case Study: Assessing Climate Risks to the Water Supply for Colorado Springs, Colorado, USA -- 12.3.1 Step 1: Decision Framing -- 12.3.2 Step 2: Climate Stress Test -- 12.3.3 Step 3. Estimation of Climate-Informed Risks -- 12.4 Conclusions -- References -- 13 A Conceptual Model of Planned Adaptation (PA) -- 13.1 Introduction -- 13.2 Planned Adaptation Cases -- 13.2.1 Particulate Matter Standards -- 13.2.2 Delta Management in the Netherlands -- 13.2.3 Air Transportation Safety -- 13.2.4 Internet Number Delegation -- 13.3 Generalizing Elements of Planned Adaptation -- 13.3.1 Disentangling Primary and Secondary Rules.
13.3.2 Triggers and Events -- 13.3.3 Evaluation -- 13.4 Conclusions and Ongoing Work -- 13.4.1 Combinations of Adaptive Capabilities -- 13.4.2 Planning and Designing for Adaptation -- 13.4.3 Implications for Future Study -- References -- 14 DMDU into Practice: Adaptive Delta Management in The Netherlands -- 14.1 Organizational Aspects of Putting a DMDU Approach into Practice -- 14.2 The Case Study: Adaptive Delta Management -- 14.3 Phase I: Prior to the Start of ADM (Politicization and De-politicization) -- 14.3.1 Build a Constituency for Change that Will Allow Political Commitments to Be Made -- 14.3.2 Develop Attractive and Plausible Perspectives: The Second Delta Committee -- 14.3.3 Enhance Public Awareness and Political Commitment -- 14.3.4 Stabilize Processes -- Build Trust and Continuity into the Structure of the programme -- 14.4 Phase II: Developing Strategies and Decisionmaking -- 14.4.1 Create a Narrative that Mobilizes Administrative and Political Decisionmakers -- 14.4.2 Involve All Parties in Developing an Approach for Dealing with Deep Uncertainty -- 14.4.3 Evaluate and Upgrade the Approach Regularly -- 14.4.4 Operationalize the DMDU Approach -- 14.5 Phase III: Elaborating, Implementing, and Adjusting Strategies -- 14.5.1 Plan the Adaptation -- 14.5.2 Organize the Adaptation -- 14.5.3 Rethink Monitoring and Evaluation -- 14.6 Conclusions, Reflections, and Outlook -- References -- DMDU-Synthesis -- 15 Supporting DMDU: A Taxonomy of Approaches and Tools -- 15.1 Introduction -- 15.2 Key Ideas -- 15.2.1 Exploratory Modeling -- 15.2.2 Adaptive Planning -- 15.2.3 Decision Support -- 15.3 A Taxonomy of Approaches and Tools for Supporting Decision Making Under Deep Uncertainty -- 15.3.1 Policy Architecture -- 15.3.2 Generation of Policy Alternatives and Generation of Scenarios -- 15.3.3 Robustness Metrics -- 15.3.4 Vulnerability Analysis.
15.4 Application of the Taxonomy.
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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
Electronic books.
Walker, Warren E.
Bloemen, Pieter J. T. M.
Popper, Steven W.
Print version: Marchau, Vincent A. W. J. Decision Making under Deep Uncertainty Cham : Springer International Publishing AG,c2019 9783030052515
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author Marchau, Vincent A. W. J.
spellingShingle Marchau, Vincent A. W. J.
Decision Making under Deep Uncertainty : From Theory to Practice.
Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 The Need for Considering Uncertainty in Decisionmaking -- 1.2 A Framework for Decision Support -- 1.3 Dealing with Uncertainty in Decisionmaking -- 1.4 Decisionmaking Under Deep Uncertainty -- 1.5 Generic Elements of DMDU Approaches-A Framework -- 1.6 An Introduction to the DMDU Tools and Approaches -- 1.7 Structure of the Book -- References -- DMDU Approaches -- 2 Robust Decision Making (RDM) -- 2.1 Introduction -- 2.2 RDM Foundations -- 2.3 RDM Process -- 2.4 Tools -- 2.5 Example: Carrots and Sticks for New Technology -- 2.5.1 Frame the Analysis -- 2.5.2 Perform Exploratory Uncertainty Analysis -- 2.5.3 Choose Initial Actions and Contingent Actions -- 2.5.4 Iterate and Re-Examine (RDM Steps 2, 3, and 5) -- 2.6 Recent Advances and Future Challenges -- References -- 3 Dynamic Adaptive Planning (DAP) -- 3.1 Introduction -- 3.2 The DAP Approach -- 3.3 A DAP Illustration: Strategic Planning for Schiphol Airport -- 3.4 Implementation and Adaptation -- 3.5 Conclusions -- References -- 4 Dynamic Adaptive Policy Pathways (DAPP) -- 4.1 Introduction -- 4.2 The DAPP Approach -- 4.3 A DAPP Illustration: Navigation along the Waas River -- 4.4 Under What Conditions Is This Approach Useful? -- 4.5 Recent Advances -- 4.6 Links with Other DMDU Approaches -- 4.7 Future Challenges -- References -- 5 Info-Gap Decision Theory (IG) -- 5.1 Info-Gap Theory: A First Look -- 5.2 IG Robustness: Methodological Outline -- 5.2.1 Three Components of IG Robust Satisficing -- 5.2.2 IG Robustness -- 5.2.3 Prioritization of Competing Decisions -- 5.2.4 How to Evaluate Robustness: Qualitative or Quantitative? -- 5.3 IG Robustness: A Qualitative Example -- 5.3.1 Five Conceptual Proxies for Robustness -- 5.3.2 Simple Qualitative Example: Nuclear Weapon Safety.
5.4 IG Robustness and Opportuneness: A Quantitative Example -- 5.4.1 IG Robustness -- 5.4.2 Discussion of the Robustness Results -- 5.4.3 IG Opportuneness -- 5.4.4 Discussion of Opportuneness Results -- 5.4.5 An Innovation Dilemma -- 5.4.6 Functional Uncertainty -- 5.5 Conclusion and Future Challenges -- References -- 6 Engineering Options Analysis (EOA) -- 6.1 Introduction -- 6.2 Methodology of Engineering Options Analysis -- 6.2.1 Setting the Scene -- 6.2.2 Definition of an Option -- 6.2.3 Main Steps of Analysis -- 6.2.4 Details of Each Step -- 6.3 A Simple Example: A Parking Garage -- 6.4 Contrasting Engineering Options Analysis with Real Options Analysis -- 6.4.1 Different Professional Contexts -- 6.4.2 Some Specific Differences -- 6.5 Contrasting Engineering Options Analysis with Other Approaches in This Book -- 6.5.1 Engineering Options Analysis as a Planning Approach -- 6.5.2 Engineering Options Analysis as a Computational Decision-Support Tool -- 6.6 Conclusions -- References -- DMDU Applications -- 7 Robust Decision Making (RDM): Application to Water Planning and Climate Policy -- 7.1 Long-Term Planning for Water Resources and Global Climate Technology Transfer -- 7.2 Review of Robust Decision Making -- 7.2.1 Summary of Robust Decision Making -- 7.3 Case Study 1: Using RDM to Support Long-Term Water Resources Planning for the Colorado River Basin -- 7.3.1 Decision Framing for Colorado River Basin Analyses -- 7.3.2 Vulnerabilities of Current Colorado River Basin Management -- 7.3.3 Design and Simulation of Adaptive Strategies -- 7.3.4 Evaluating Regret of Strategies Across Futures -- 7.3.5 Updating Beliefs About the Future to Guide Adaptation -- 7.3.6 Robust Adaptive Strategies, and Implementation Pathways -- 7.3.7 Need for Transformative Solutions -- 7.4 Case Study 2: Using RDM to Develop Climate Mitigation Technology Diffusion Policies.
7.4.1 Decision Framing for Climate Technology Policy Analysis -- 7.4.2 Modeling International Technological Change -- 7.4.3 Evaluating Policies Across a Wide Range of Plausible Futures -- 7.4.4 Key Vulnerabilities of Climate Technology Policies -- 7.4.5 Developing a Robust Adaptive Climate Technology Policy -- 7.5 Reflections -- References -- 8 Dynamic Adaptive Planning (DAP): The Case of Intelligent Speed Adaptation -- 8.1 Introduction to the Approach -- 8.2 Introduction to the Case -- 8.3 Reason for Choosing the DAP Approach -- 8.4 Methods for Applying DAP -- 8.5 Setting up a DAP Workshop on ISA Implementation -- 8.6 Results of the DAP-ISA Workshop -- 8.7 Evaluation of the DAP Approach -- 8.8 Lessons Learned About the Process of Developing Dynamic Adaptive Plans -- 8.9 Conclusions -- References -- 9 Dynamic Adaptive Policy Pathways (DAPP): From Theory to Practice -- 9.1 Introduction to the Case -- 9.2 Reason for Choosing DAPP -- 9.3 Setup of Approach for Case Study in Practice -- 9.4 Applying DAPP in Practice -- 9.5 Results of Applying the Approach -- 9.6 Reflections (Lessons Learned) for Practice and Theory -- References -- 10 Info-Gap (IG): Robust Design of a Mechanical Latch -- 10.1 Introduction -- 10.2 Application of Info-Gap Robustness for Policymaking -- 10.3 Formulation for the Design of a Mechanical Latch -- 10.4 The Info-Gap Robust Design Methodology -- 10.5 Assessment of Two Competing Designs -- 10.6 Concluding Remarks -- References -- 11 Engineering Options Analysis (EOA): Applications -- 11.1 Case Study 1: Liquid Natural Gas in Victoria State, Australia -- 11.2 Setup of the EOA Approach for the LNG Case Study -- 11.2.1 Design Alternatives -- 11.2.2 Parameter Values -- 11.2.3 Characterization of Sources of Uncertainty -- 11.3 Results from Applying the EOA Approach to the LNG Case Study -- 11.3.1 Fixed Design.
11.3.2 Performance of Fixed Design Under Uncertainty -- 11.3.3 Flexible Strategies -- 11.3.4 Flexible Strategy-Timing (But No Learning) -- 11.3.5 Flexible Strategy-Timing and Location (But No Learning) -- 11.3.6 Flexible Strategy-Learning -- 11.3.7 Learning Combined with Economies of Scale -- 11.3.8 Multi-criteria Comparison of Strategies -- 11.3.9 Guidance from Applying EOA to This Case -- 11.4 Case Study 2: Water Management Infrastructure in the Netherlands: IJmuiden Pumping Station -- 11.5 Setup of the EOA Approach for the IJmuiden Pumping Station -- 11.5.1 Characterization of Sources of Uncertainty -- 11.5.2 Design Alternatives -- 11.5.3 Details of the Analysis -- 11.6 Results from Applying the EOA Approach to the IJmuiden Pumping Station -- 11.6.1 Inland Water Level Regulation Function -- 11.6.2 Flood Defense Function -- 11.6.3 Guidance from Applying EOA to This Case -- 11.7 Conclusions and Reflections for Practice and Theory -- References -- DMDU-Implementation Processes -- 12 Decision Scaling (DS): Decision Support for Climate Change -- 12.1 Introduction -- 12.2 Technical Approach -- 12.2.1 Overview -- 12.2.2 Step 1. Decision Framing -- 12.2.3 Step 2. Climate Stress Test -- 12.2.4 Step 3. Estimation of Climate-Informed Risks -- 12.3 Case Study: Assessing Climate Risks to the Water Supply for Colorado Springs, Colorado, USA -- 12.3.1 Step 1: Decision Framing -- 12.3.2 Step 2: Climate Stress Test -- 12.3.3 Step 3. Estimation of Climate-Informed Risks -- 12.4 Conclusions -- References -- 13 A Conceptual Model of Planned Adaptation (PA) -- 13.1 Introduction -- 13.2 Planned Adaptation Cases -- 13.2.1 Particulate Matter Standards -- 13.2.2 Delta Management in the Netherlands -- 13.2.3 Air Transportation Safety -- 13.2.4 Internet Number Delegation -- 13.3 Generalizing Elements of Planned Adaptation -- 13.3.1 Disentangling Primary and Secondary Rules.
13.3.2 Triggers and Events -- 13.3.3 Evaluation -- 13.4 Conclusions and Ongoing Work -- 13.4.1 Combinations of Adaptive Capabilities -- 13.4.2 Planning and Designing for Adaptation -- 13.4.3 Implications for Future Study -- References -- 14 DMDU into Practice: Adaptive Delta Management in The Netherlands -- 14.1 Organizational Aspects of Putting a DMDU Approach into Practice -- 14.2 The Case Study: Adaptive Delta Management -- 14.3 Phase I: Prior to the Start of ADM (Politicization and De-politicization) -- 14.3.1 Build a Constituency for Change that Will Allow Political Commitments to Be Made -- 14.3.2 Develop Attractive and Plausible Perspectives: The Second Delta Committee -- 14.3.3 Enhance Public Awareness and Political Commitment -- 14.3.4 Stabilize Processes -- Build Trust and Continuity into the Structure of the programme -- 14.4 Phase II: Developing Strategies and Decisionmaking -- 14.4.1 Create a Narrative that Mobilizes Administrative and Political Decisionmakers -- 14.4.2 Involve All Parties in Developing an Approach for Dealing with Deep Uncertainty -- 14.4.3 Evaluate and Upgrade the Approach Regularly -- 14.4.4 Operationalize the DMDU Approach -- 14.5 Phase III: Elaborating, Implementing, and Adjusting Strategies -- 14.5.1 Plan the Adaptation -- 14.5.2 Organize the Adaptation -- 14.5.3 Rethink Monitoring and Evaluation -- 14.6 Conclusions, Reflections, and Outlook -- References -- DMDU-Synthesis -- 15 Supporting DMDU: A Taxonomy of Approaches and Tools -- 15.1 Introduction -- 15.2 Key Ideas -- 15.2.1 Exploratory Modeling -- 15.2.2 Adaptive Planning -- 15.2.3 Decision Support -- 15.3 A Taxonomy of Approaches and Tools for Supporting Decision Making Under Deep Uncertainty -- 15.3.1 Policy Architecture -- 15.3.2 Generation of Policy Alternatives and Generation of Scenarios -- 15.3.3 Robustness Metrics -- 15.3.4 Vulnerability Analysis.
15.4 Application of the Taxonomy.
author_facet Marchau, Vincent A. W. J.
Walker, Warren E.
Bloemen, Pieter J. T. M.
Popper, Steven W.
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author2 Walker, Warren E.
Bloemen, Pieter J. T. M.
Popper, Steven W.
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author2_role TeilnehmendeR
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author_sort Marchau, Vincent A. W. J.
title Decision Making under Deep Uncertainty : From Theory to Practice.
title_sub From Theory to Practice.
title_full Decision Making under Deep Uncertainty : From Theory to Practice.
title_fullStr Decision Making under Deep Uncertainty : From Theory to Practice.
title_full_unstemmed Decision Making under Deep Uncertainty : From Theory to Practice.
title_auth Decision Making under Deep Uncertainty : From Theory to Practice.
title_new Decision Making under Deep Uncertainty :
title_sort decision making under deep uncertainty : from theory to practice.
publisher Springer International Publishing AG,
publishDate 2019
physical 1 online resource (408 pages)
edition 1st ed.
contents Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 The Need for Considering Uncertainty in Decisionmaking -- 1.2 A Framework for Decision Support -- 1.3 Dealing with Uncertainty in Decisionmaking -- 1.4 Decisionmaking Under Deep Uncertainty -- 1.5 Generic Elements of DMDU Approaches-A Framework -- 1.6 An Introduction to the DMDU Tools and Approaches -- 1.7 Structure of the Book -- References -- DMDU Approaches -- 2 Robust Decision Making (RDM) -- 2.1 Introduction -- 2.2 RDM Foundations -- 2.3 RDM Process -- 2.4 Tools -- 2.5 Example: Carrots and Sticks for New Technology -- 2.5.1 Frame the Analysis -- 2.5.2 Perform Exploratory Uncertainty Analysis -- 2.5.3 Choose Initial Actions and Contingent Actions -- 2.5.4 Iterate and Re-Examine (RDM Steps 2, 3, and 5) -- 2.6 Recent Advances and Future Challenges -- References -- 3 Dynamic Adaptive Planning (DAP) -- 3.1 Introduction -- 3.2 The DAP Approach -- 3.3 A DAP Illustration: Strategic Planning for Schiphol Airport -- 3.4 Implementation and Adaptation -- 3.5 Conclusions -- References -- 4 Dynamic Adaptive Policy Pathways (DAPP) -- 4.1 Introduction -- 4.2 The DAPP Approach -- 4.3 A DAPP Illustration: Navigation along the Waas River -- 4.4 Under What Conditions Is This Approach Useful? -- 4.5 Recent Advances -- 4.6 Links with Other DMDU Approaches -- 4.7 Future Challenges -- References -- 5 Info-Gap Decision Theory (IG) -- 5.1 Info-Gap Theory: A First Look -- 5.2 IG Robustness: Methodological Outline -- 5.2.1 Three Components of IG Robust Satisficing -- 5.2.2 IG Robustness -- 5.2.3 Prioritization of Competing Decisions -- 5.2.4 How to Evaluate Robustness: Qualitative or Quantitative? -- 5.3 IG Robustness: A Qualitative Example -- 5.3.1 Five Conceptual Proxies for Robustness -- 5.3.2 Simple Qualitative Example: Nuclear Weapon Safety.
5.4 IG Robustness and Opportuneness: A Quantitative Example -- 5.4.1 IG Robustness -- 5.4.2 Discussion of the Robustness Results -- 5.4.3 IG Opportuneness -- 5.4.4 Discussion of Opportuneness Results -- 5.4.5 An Innovation Dilemma -- 5.4.6 Functional Uncertainty -- 5.5 Conclusion and Future Challenges -- References -- 6 Engineering Options Analysis (EOA) -- 6.1 Introduction -- 6.2 Methodology of Engineering Options Analysis -- 6.2.1 Setting the Scene -- 6.2.2 Definition of an Option -- 6.2.3 Main Steps of Analysis -- 6.2.4 Details of Each Step -- 6.3 A Simple Example: A Parking Garage -- 6.4 Contrasting Engineering Options Analysis with Real Options Analysis -- 6.4.1 Different Professional Contexts -- 6.4.2 Some Specific Differences -- 6.5 Contrasting Engineering Options Analysis with Other Approaches in This Book -- 6.5.1 Engineering Options Analysis as a Planning Approach -- 6.5.2 Engineering Options Analysis as a Computational Decision-Support Tool -- 6.6 Conclusions -- References -- DMDU Applications -- 7 Robust Decision Making (RDM): Application to Water Planning and Climate Policy -- 7.1 Long-Term Planning for Water Resources and Global Climate Technology Transfer -- 7.2 Review of Robust Decision Making -- 7.2.1 Summary of Robust Decision Making -- 7.3 Case Study 1: Using RDM to Support Long-Term Water Resources Planning for the Colorado River Basin -- 7.3.1 Decision Framing for Colorado River Basin Analyses -- 7.3.2 Vulnerabilities of Current Colorado River Basin Management -- 7.3.3 Design and Simulation of Adaptive Strategies -- 7.3.4 Evaluating Regret of Strategies Across Futures -- 7.3.5 Updating Beliefs About the Future to Guide Adaptation -- 7.3.6 Robust Adaptive Strategies, and Implementation Pathways -- 7.3.7 Need for Transformative Solutions -- 7.4 Case Study 2: Using RDM to Develop Climate Mitigation Technology Diffusion Policies.
7.4.1 Decision Framing for Climate Technology Policy Analysis -- 7.4.2 Modeling International Technological Change -- 7.4.3 Evaluating Policies Across a Wide Range of Plausible Futures -- 7.4.4 Key Vulnerabilities of Climate Technology Policies -- 7.4.5 Developing a Robust Adaptive Climate Technology Policy -- 7.5 Reflections -- References -- 8 Dynamic Adaptive Planning (DAP): The Case of Intelligent Speed Adaptation -- 8.1 Introduction to the Approach -- 8.2 Introduction to the Case -- 8.3 Reason for Choosing the DAP Approach -- 8.4 Methods for Applying DAP -- 8.5 Setting up a DAP Workshop on ISA Implementation -- 8.6 Results of the DAP-ISA Workshop -- 8.7 Evaluation of the DAP Approach -- 8.8 Lessons Learned About the Process of Developing Dynamic Adaptive Plans -- 8.9 Conclusions -- References -- 9 Dynamic Adaptive Policy Pathways (DAPP): From Theory to Practice -- 9.1 Introduction to the Case -- 9.2 Reason for Choosing DAPP -- 9.3 Setup of Approach for Case Study in Practice -- 9.4 Applying DAPP in Practice -- 9.5 Results of Applying the Approach -- 9.6 Reflections (Lessons Learned) for Practice and Theory -- References -- 10 Info-Gap (IG): Robust Design of a Mechanical Latch -- 10.1 Introduction -- 10.2 Application of Info-Gap Robustness for Policymaking -- 10.3 Formulation for the Design of a Mechanical Latch -- 10.4 The Info-Gap Robust Design Methodology -- 10.5 Assessment of Two Competing Designs -- 10.6 Concluding Remarks -- References -- 11 Engineering Options Analysis (EOA): Applications -- 11.1 Case Study 1: Liquid Natural Gas in Victoria State, Australia -- 11.2 Setup of the EOA Approach for the LNG Case Study -- 11.2.1 Design Alternatives -- 11.2.2 Parameter Values -- 11.2.3 Characterization of Sources of Uncertainty -- 11.3 Results from Applying the EOA Approach to the LNG Case Study -- 11.3.1 Fixed Design.
11.3.2 Performance of Fixed Design Under Uncertainty -- 11.3.3 Flexible Strategies -- 11.3.4 Flexible Strategy-Timing (But No Learning) -- 11.3.5 Flexible Strategy-Timing and Location (But No Learning) -- 11.3.6 Flexible Strategy-Learning -- 11.3.7 Learning Combined with Economies of Scale -- 11.3.8 Multi-criteria Comparison of Strategies -- 11.3.9 Guidance from Applying EOA to This Case -- 11.4 Case Study 2: Water Management Infrastructure in the Netherlands: IJmuiden Pumping Station -- 11.5 Setup of the EOA Approach for the IJmuiden Pumping Station -- 11.5.1 Characterization of Sources of Uncertainty -- 11.5.2 Design Alternatives -- 11.5.3 Details of the Analysis -- 11.6 Results from Applying the EOA Approach to the IJmuiden Pumping Station -- 11.6.1 Inland Water Level Regulation Function -- 11.6.2 Flood Defense Function -- 11.6.3 Guidance from Applying EOA to This Case -- 11.7 Conclusions and Reflections for Practice and Theory -- References -- DMDU-Implementation Processes -- 12 Decision Scaling (DS): Decision Support for Climate Change -- 12.1 Introduction -- 12.2 Technical Approach -- 12.2.1 Overview -- 12.2.2 Step 1. Decision Framing -- 12.2.3 Step 2. Climate Stress Test -- 12.2.4 Step 3. Estimation of Climate-Informed Risks -- 12.3 Case Study: Assessing Climate Risks to the Water Supply for Colorado Springs, Colorado, USA -- 12.3.1 Step 1: Decision Framing -- 12.3.2 Step 2: Climate Stress Test -- 12.3.3 Step 3. Estimation of Climate-Informed Risks -- 12.4 Conclusions -- References -- 13 A Conceptual Model of Planned Adaptation (PA) -- 13.1 Introduction -- 13.2 Planned Adaptation Cases -- 13.2.1 Particulate Matter Standards -- 13.2.2 Delta Management in the Netherlands -- 13.2.3 Air Transportation Safety -- 13.2.4 Internet Number Delegation -- 13.3 Generalizing Elements of Planned Adaptation -- 13.3.1 Disentangling Primary and Secondary Rules.
13.3.2 Triggers and Events -- 13.3.3 Evaluation -- 13.4 Conclusions and Ongoing Work -- 13.4.1 Combinations of Adaptive Capabilities -- 13.4.2 Planning and Designing for Adaptation -- 13.4.3 Implications for Future Study -- References -- 14 DMDU into Practice: Adaptive Delta Management in The Netherlands -- 14.1 Organizational Aspects of Putting a DMDU Approach into Practice -- 14.2 The Case Study: Adaptive Delta Management -- 14.3 Phase I: Prior to the Start of ADM (Politicization and De-politicization) -- 14.3.1 Build a Constituency for Change that Will Allow Political Commitments to Be Made -- 14.3.2 Develop Attractive and Plausible Perspectives: The Second Delta Committee -- 14.3.3 Enhance Public Awareness and Political Commitment -- 14.3.4 Stabilize Processes -- Build Trust and Continuity into the Structure of the programme -- 14.4 Phase II: Developing Strategies and Decisionmaking -- 14.4.1 Create a Narrative that Mobilizes Administrative and Political Decisionmakers -- 14.4.2 Involve All Parties in Developing an Approach for Dealing with Deep Uncertainty -- 14.4.3 Evaluate and Upgrade the Approach Regularly -- 14.4.4 Operationalize the DMDU Approach -- 14.5 Phase III: Elaborating, Implementing, and Adjusting Strategies -- 14.5.1 Plan the Adaptation -- 14.5.2 Organize the Adaptation -- 14.5.3 Rethink Monitoring and Evaluation -- 14.6 Conclusions, Reflections, and Outlook -- References -- DMDU-Synthesis -- 15 Supporting DMDU: A Taxonomy of Approaches and Tools -- 15.1 Introduction -- 15.2 Key Ideas -- 15.2.1 Exploratory Modeling -- 15.2.2 Adaptive Planning -- 15.2.3 Decision Support -- 15.3 A Taxonomy of Approaches and Tools for Supporting Decision Making Under Deep Uncertainty -- 15.3.1 Policy Architecture -- 15.3.2 Generation of Policy Alternatives and Generation of Scenarios -- 15.3.3 Robustness Metrics -- 15.3.4 Vulnerability Analysis.
15.4 Application of the Taxonomy.
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fullrecord <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>12173nam a22004693i 4500</leader><controlfield tag="001">5005747398</controlfield><controlfield tag="003">MiAaPQ</controlfield><controlfield tag="005">20240229073832.0</controlfield><controlfield tag="006">m o d | </controlfield><controlfield tag="007">cr cnu||||||||</controlfield><controlfield tag="008">240229s2019 xx o ||||0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9783030052522</subfield><subfield code="q">(electronic bk.)</subfield></datafield><datafield tag="020" ind1=" " ind2=" "><subfield code="z">9783030052515</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)5005747398</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL5747398</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1099789127</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">T57.6-.97</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Marchau, Vincent A. W. J.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Decision Making under Deep Uncertainty :</subfield><subfield code="b">From Theory to Practice.</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">1st ed.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Cham :</subfield><subfield code="b">Springer International Publishing AG,</subfield><subfield code="c">2019.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2019.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (408 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- Preface -- Acknowledgements -- Contents -- 1 Introduction -- 1.1 The Need for Considering Uncertainty in Decisionmaking -- 1.2 A Framework for Decision Support -- 1.3 Dealing with Uncertainty in Decisionmaking -- 1.4 Decisionmaking Under Deep Uncertainty -- 1.5 Generic Elements of DMDU Approaches-A Framework -- 1.6 An Introduction to the DMDU Tools and Approaches -- 1.7 Structure of the Book -- References -- DMDU Approaches -- 2 Robust Decision Making (RDM) -- 2.1 Introduction -- 2.2 RDM Foundations -- 2.3 RDM Process -- 2.4 Tools -- 2.5 Example: Carrots and Sticks for New Technology -- 2.5.1 Frame the Analysis -- 2.5.2 Perform Exploratory Uncertainty Analysis -- 2.5.3 Choose Initial Actions and Contingent Actions -- 2.5.4 Iterate and Re-Examine (RDM Steps 2, 3, and 5) -- 2.6 Recent Advances and Future Challenges -- References -- 3 Dynamic Adaptive Planning (DAP) -- 3.1 Introduction -- 3.2 The DAP Approach -- 3.3 A DAP Illustration: Strategic Planning for Schiphol Airport -- 3.4 Implementation and Adaptation -- 3.5 Conclusions -- References -- 4 Dynamic Adaptive Policy Pathways (DAPP) -- 4.1 Introduction -- 4.2 The DAPP Approach -- 4.3 A DAPP Illustration: Navigation along the Waas River -- 4.4 Under What Conditions Is This Approach Useful? -- 4.5 Recent Advances -- 4.6 Links with Other DMDU Approaches -- 4.7 Future Challenges -- References -- 5 Info-Gap Decision Theory (IG) -- 5.1 Info-Gap Theory: A First Look -- 5.2 IG Robustness: Methodological Outline -- 5.2.1 Three Components of IG Robust Satisficing -- 5.2.2 IG Robustness -- 5.2.3 Prioritization of Competing Decisions -- 5.2.4 How to Evaluate Robustness: Qualitative or Quantitative? -- 5.3 IG Robustness: A Qualitative Example -- 5.3.1 Five Conceptual Proxies for Robustness -- 5.3.2 Simple Qualitative Example: Nuclear Weapon Safety.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">5.4 IG Robustness and Opportuneness: A Quantitative Example -- 5.4.1 IG Robustness -- 5.4.2 Discussion of the Robustness Results -- 5.4.3 IG Opportuneness -- 5.4.4 Discussion of Opportuneness Results -- 5.4.5 An Innovation Dilemma -- 5.4.6 Functional Uncertainty -- 5.5 Conclusion and Future Challenges -- References -- 6 Engineering Options Analysis (EOA) -- 6.1 Introduction -- 6.2 Methodology of Engineering Options Analysis -- 6.2.1 Setting the Scene -- 6.2.2 Definition of an Option -- 6.2.3 Main Steps of Analysis -- 6.2.4 Details of Each Step -- 6.3 A Simple Example: A Parking Garage -- 6.4 Contrasting Engineering Options Analysis with Real Options Analysis -- 6.4.1 Different Professional Contexts -- 6.4.2 Some Specific Differences -- 6.5 Contrasting Engineering Options Analysis with Other Approaches in This Book -- 6.5.1 Engineering Options Analysis as a Planning Approach -- 6.5.2 Engineering Options Analysis as a Computational Decision-Support Tool -- 6.6 Conclusions -- References -- DMDU Applications -- 7 Robust Decision Making (RDM): Application to Water Planning and Climate Policy -- 7.1 Long-Term Planning for Water Resources and Global Climate Technology Transfer -- 7.2 Review of Robust Decision Making -- 7.2.1 Summary of Robust Decision Making -- 7.3 Case Study 1: Using RDM to Support Long-Term Water Resources Planning for the Colorado River Basin -- 7.3.1 Decision Framing for Colorado River Basin Analyses -- 7.3.2 Vulnerabilities of Current Colorado River Basin Management -- 7.3.3 Design and Simulation of Adaptive Strategies -- 7.3.4 Evaluating Regret of Strategies Across Futures -- 7.3.5 Updating Beliefs About the Future to Guide Adaptation -- 7.3.6 Robust Adaptive Strategies, and Implementation Pathways -- 7.3.7 Need for Transformative Solutions -- 7.4 Case Study 2: Using RDM to Develop Climate Mitigation Technology Diffusion Policies.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.4.1 Decision Framing for Climate Technology Policy Analysis -- 7.4.2 Modeling International Technological Change -- 7.4.3 Evaluating Policies Across a Wide Range of Plausible Futures -- 7.4.4 Key Vulnerabilities of Climate Technology Policies -- 7.4.5 Developing a Robust Adaptive Climate Technology Policy -- 7.5 Reflections -- References -- 8 Dynamic Adaptive Planning (DAP): The Case of Intelligent Speed Adaptation -- 8.1 Introduction to the Approach -- 8.2 Introduction to the Case -- 8.3 Reason for Choosing the DAP Approach -- 8.4 Methods for Applying DAP -- 8.5 Setting up a DAP Workshop on ISA Implementation -- 8.6 Results of the DAP-ISA Workshop -- 8.7 Evaluation of the DAP Approach -- 8.8 Lessons Learned About the Process of Developing Dynamic Adaptive Plans -- 8.9 Conclusions -- References -- 9 Dynamic Adaptive Policy Pathways (DAPP): From Theory to Practice -- 9.1 Introduction to the Case -- 9.2 Reason for Choosing DAPP -- 9.3 Setup of Approach for Case Study in Practice -- 9.4 Applying DAPP in Practice -- 9.5 Results of Applying the Approach -- 9.6 Reflections (Lessons Learned) for Practice and Theory -- References -- 10 Info-Gap (IG): Robust Design of a Mechanical Latch -- 10.1 Introduction -- 10.2 Application of Info-Gap Robustness for Policymaking -- 10.3 Formulation for the Design of a Mechanical Latch -- 10.4 The Info-Gap Robust Design Methodology -- 10.5 Assessment of Two Competing Designs -- 10.6 Concluding Remarks -- References -- 11 Engineering Options Analysis (EOA): Applications -- 11.1 Case Study 1: Liquid Natural Gas in Victoria State, Australia -- 11.2 Setup of the EOA Approach for the LNG Case Study -- 11.2.1 Design Alternatives -- 11.2.2 Parameter Values -- 11.2.3 Characterization of Sources of Uncertainty -- 11.3 Results from Applying the EOA Approach to the LNG Case Study -- 11.3.1 Fixed Design.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">11.3.2 Performance of Fixed Design Under Uncertainty -- 11.3.3 Flexible Strategies -- 11.3.4 Flexible Strategy-Timing (But No Learning) -- 11.3.5 Flexible Strategy-Timing and Location (But No Learning) -- 11.3.6 Flexible Strategy-Learning -- 11.3.7 Learning Combined with Economies of Scale -- 11.3.8 Multi-criteria Comparison of Strategies -- 11.3.9 Guidance from Applying EOA to This Case -- 11.4 Case Study 2: Water Management Infrastructure in the Netherlands: IJmuiden Pumping Station -- 11.5 Setup of the EOA Approach for the IJmuiden Pumping Station -- 11.5.1 Characterization of Sources of Uncertainty -- 11.5.2 Design Alternatives -- 11.5.3 Details of the Analysis -- 11.6 Results from Applying the EOA Approach to the IJmuiden Pumping Station -- 11.6.1 Inland Water Level Regulation Function -- 11.6.2 Flood Defense Function -- 11.6.3 Guidance from Applying EOA to This Case -- 11.7 Conclusions and Reflections for Practice and Theory -- References -- DMDU-Implementation Processes -- 12 Decision Scaling (DS): Decision Support for Climate Change -- 12.1 Introduction -- 12.2 Technical Approach -- 12.2.1 Overview -- 12.2.2 Step 1. Decision Framing -- 12.2.3 Step 2. Climate Stress Test -- 12.2.4 Step 3. Estimation of Climate-Informed Risks -- 12.3 Case Study: Assessing Climate Risks to the Water Supply for Colorado Springs, Colorado, USA -- 12.3.1 Step 1: Decision Framing -- 12.3.2 Step 2: Climate Stress Test -- 12.3.3 Step 3. Estimation of Climate-Informed Risks -- 12.4 Conclusions -- References -- 13 A Conceptual Model of Planned Adaptation (PA) -- 13.1 Introduction -- 13.2 Planned Adaptation Cases -- 13.2.1 Particulate Matter Standards -- 13.2.2 Delta Management in the Netherlands -- 13.2.3 Air Transportation Safety -- 13.2.4 Internet Number Delegation -- 13.3 Generalizing Elements of Planned Adaptation -- 13.3.1 Disentangling Primary and Secondary Rules.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">13.3.2 Triggers and Events -- 13.3.3 Evaluation -- 13.4 Conclusions and Ongoing Work -- 13.4.1 Combinations of Adaptive Capabilities -- 13.4.2 Planning and Designing for Adaptation -- 13.4.3 Implications for Future Study -- References -- 14 DMDU into Practice: Adaptive Delta Management in The Netherlands -- 14.1 Organizational Aspects of Putting a DMDU Approach into Practice -- 14.2 The Case Study: Adaptive Delta Management -- 14.3 Phase I: Prior to the Start of ADM (Politicization and De-politicization) -- 14.3.1 Build a Constituency for Change that Will Allow Political Commitments to Be Made -- 14.3.2 Develop Attractive and Plausible Perspectives: The Second Delta Committee -- 14.3.3 Enhance Public Awareness and Political Commitment -- 14.3.4 Stabilize Processes -- Build Trust and Continuity into the Structure of the programme -- 14.4 Phase II: Developing Strategies and Decisionmaking -- 14.4.1 Create a Narrative that Mobilizes Administrative and Political Decisionmakers -- 14.4.2 Involve All Parties in Developing an Approach for Dealing with Deep Uncertainty -- 14.4.3 Evaluate and Upgrade the Approach Regularly -- 14.4.4 Operationalize the DMDU Approach -- 14.5 Phase III: Elaborating, Implementing, and Adjusting Strategies -- 14.5.1 Plan the Adaptation -- 14.5.2 Organize the Adaptation -- 14.5.3 Rethink Monitoring and Evaluation -- 14.6 Conclusions, Reflections, and Outlook -- References -- DMDU-Synthesis -- 15 Supporting DMDU: A Taxonomy of Approaches and Tools -- 15.1 Introduction -- 15.2 Key Ideas -- 15.2.1 Exploratory Modeling -- 15.2.2 Adaptive Planning -- 15.2.3 Decision Support -- 15.3 A Taxonomy of Approaches and Tools for Supporting Decision Making Under Deep Uncertainty -- 15.3.1 Policy Architecture -- 15.3.2 Generation of Policy Alternatives and Generation of Scenarios -- 15.3.3 Robustness Metrics -- 15.3.4 Vulnerability Analysis.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">15.4 Application of the Taxonomy.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield></datafield><datafield tag="655" ind1=" " ind2="4"><subfield code="a">Electronic books.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Walker, Warren E.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Bloemen, Pieter J. T. M.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Popper, Steven W.</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">Marchau, Vincent A. W. J.</subfield><subfield code="t">Decision Making under Deep Uncertainty</subfield><subfield code="d">Cham : Springer International Publishing AG,c2019</subfield><subfield code="z">9783030052515</subfield></datafield><datafield tag="797" ind1="2" ind2=" "><subfield code="a">ProQuest (Firm)</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="u">https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=5747398</subfield><subfield code="z">Click to View</subfield></datafield></record></collection>

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