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This book examines the recent development and use of computer modeling and simulation as an important tool for understanding environmental and resource-based conflicts and for finding pathways for conflict resolution. It introduces a new, innovative technique for using agent-based modeling as a tool for better understanding environmental conflic
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This book examines the recent development and use of computer modeling and simulation as an important tool for understanding environmental and resource-based conflicts and for finding pathways for conflict resolution. It introduces a new, innovative technique for using agent-based modeling as a tool for better understanding environmental conflic
Produktdetails
- Produktdetails
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 333
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 254mm x 178mm x 19mm
- Gewicht: 635g
- ISBN-13: 9780367570828
- ISBN-10: 0367570823
- Artikelnr.: 69893386
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 333
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 254mm x 178mm x 19mm
- Gewicht: 635g
- ISBN-13: 9780367570828
- ISBN-10: 0367570823
- Artikelnr.: 69893386
Professor Todd BenDor is the head of the land use and environmental planning specialization in the Department of City and Regional Planning University of North Carolina at Chapel Hill. His research and teaching focus on producing better ways to understand the impacts that human activities and development can have on sensitive ecological and environmental systems. His research uses both qualitative and quantitative techniques to explore improvements in environmental policy, better and easier to use models of urban growth and change, and improvements in environmental conflict resolution techniques. Dr. BenDor is also the Director of Carolina Planning's Ph.D. Program. Jürgen Scheffran is professor at the Institute of Geography of Universität Hamburg and head of the Research Group Climate Change and Security (CLISEC) in the Excellence Initiative "Integrated Climate Systems Analysis and Prediction" (CliSAP) at KlimaCampus Hamburg. He is Associate Member of the Center for Science and Peace Research (ZNF) and Faculty Affiliate of the Program in Arms Control, Disarmament and International Security (ACDIS) at the University of Illinois. After his physics Ph.D. at the University of Marburg he worked in the Interdisciplinary Research Group IANUS and the Mathematics Department of the Technical University of Darmstadt, at the Potsdam Institute for Climate Impact Research (PIK), and as Visiting Professor at the University of Paris (Sorbonne). Before he came to Hamburg in August 2009, he spent five years at the University of Illinois at Urbana-Champaign (UIUC), where he held positions in the Departments of Political Science and Atmospheric Sciences, at ACDIS and the Center for Advanced BioEnergy Research (CABER).
Part I: Conflict and the Promise of Conflict Modeling 1. Environmental
Conflicts in a Complex World 2. Why Model? How Can Modeling Help Resolve
Conflict? 3. The History and Types of Conflict Modeling 4. Participatory
Modeling and Conflict Resolution Part II: Modeling Environmental Conflict
5. System Dynamics and Conflict Modeling 6. Agent-Based Modeling and
Environmental Conflict 7. Modeling Conflict and Cooperation as Agent Action
and Interaction Part III: Applications of the VIABLE Model Framework 8. A
Viability Approach to Understanding Fishery Conflict and Cooperation 9. An
Adaptive Dynamic Model of Emissions Trading 10. Modeling Bioenergy and Land
Use Conflict 11. The Future of Modeling Environmental Conflict and
Cooperation
Conflicts in a Complex World 2. Why Model? How Can Modeling Help Resolve
Conflict? 3. The History and Types of Conflict Modeling 4. Participatory
Modeling and Conflict Resolution Part II: Modeling Environmental Conflict
5. System Dynamics and Conflict Modeling 6. Agent-Based Modeling and
Environmental Conflict 7. Modeling Conflict and Cooperation as Agent Action
and Interaction Part III: Applications of the VIABLE Model Framework 8. A
Viability Approach to Understanding Fishery Conflict and Cooperation 9. An
Adaptive Dynamic Model of Emissions Trading 10. Modeling Bioenergy and Land
Use Conflict 11. The Future of Modeling Environmental Conflict and
Cooperation
Part I: Conflict and the Promise of Conflict Modeling 1. Environmental
Conflicts in a Complex World 2. Why Model? How Can Modeling Help Resolve
Conflict? 3. The History and Types of Conflict Modeling 4. Participatory
Modeling and Conflict Resolution Part II: Modeling Environmental Conflict
5. System Dynamics and Conflict Modeling 6. Agent-Based Modeling and
Environmental Conflict 7. Modeling Conflict and Cooperation as Agent Action
and Interaction Part III: Applications of the VIABLE Model Framework 8. A
Viability Approach to Understanding Fishery Conflict and Cooperation 9. An
Adaptive Dynamic Model of Emissions Trading 10. Modeling Bioenergy and Land
Use Conflict 11. The Future of Modeling Environmental Conflict and
Cooperation
Conflicts in a Complex World 2. Why Model? How Can Modeling Help Resolve
Conflict? 3. The History and Types of Conflict Modeling 4. Participatory
Modeling and Conflict Resolution Part II: Modeling Environmental Conflict
5. System Dynamics and Conflict Modeling 6. Agent-Based Modeling and
Environmental Conflict 7. Modeling Conflict and Cooperation as Agent Action
and Interaction Part III: Applications of the VIABLE Model Framework 8. A
Viability Approach to Understanding Fishery Conflict and Cooperation 9. An
Adaptive Dynamic Model of Emissions Trading 10. Modeling Bioenergy and Land
Use Conflict 11. The Future of Modeling Environmental Conflict and
Cooperation