Game theoretic analysis of congestion, safety and security [electronic resource] : traffic and transportation theory / Kjell Hausken, Jun Zhuang, editors.
Hausken, Kjell, editor.; Zhuang, Jun, editor.
2015
HE336.T7
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Title
Game theoretic analysis of congestion, safety and security [electronic resource] : traffic and transportation theory / Kjell Hausken, Jun Zhuang, editors.
ISBN
9783319116747 electronic book
3319116746 electronic book
9783319116730
DOI
https://doi.org/10.1007/978-3-319-11674-7
Published
Cham : Springer, 2015.
Language
English
Description
1 online resource (xii, 220 pages) : illustrations (some color).
Item Number
10.1007/978-3-319-11674-7 doi
Call Number
HE336.T7
Dewey Decimal Classification
388.3/1
Summary
Maximizing reader insights into the interactions between game theory, excessive crowding and safety and security elements in traffic and transportation theory, this book establishes a new research angle by illustrating linkages between different research approaches and through laying the foundations for subsequent analysis. Congestion (excessive crowding) is defined in this work as all kinds of flows; e.g., road/sea/air traffic, people, data, information, water, electricity, and organisms. Analyzing systems where congestion occurs ? which may be in parallel, series, interlinked, or interdependent, with flows one way or both ways ? this book puts forward new congestion models, breaking new ground by introducing game theory and safety/security. Addressing the multiple actors who may hold different concerns regarding system reliability; e.g. one or several terrorists, a government, various local or regional government agencies, or others with stakes for or against system reliability, this book describes how governments authorities, and others may have the tools to handle congestion, but that these tools need to be improved whilst additionally ensuring safety and security against various threats. This game-theoretic analysis sets this book apart from the current congestion literature and ensures that the book will be of use to postgraduates, researchers, 3rd/4th-year undergraduates, policy makers, and practitioners.
Bibliography, etc. Note
Includes bibliographical references and indexes.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed January 14, 2015).
Added Author
Hausken, Kjell, editor.
Zhuang, Jun, editor.
Series
Springer series in reliability engineering.
Available in Other Form
Print version: 9783319116730
Linked Resources
Online Access
Record Appears in
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Preface; Acknowledgments; Contents; 1 Congestion Management in Motorways and Urban Networks Through a Bargaining-Game-Based Coordination Mechanism; Abstract; 1 Introduction; 2 Non-linear Distributed Model Predictive Control: Bargaining Game Approach; 2.1 Problem Statement; 2.2 The Distributed Model Predictive Control Game; 3 Bargaining-Game-Based Coordination for Congestion Management on Motorways; 3.1 Motorway Traffic Model; 3.2 Bargaining-Game Approach to Congestion Management on Motorways; 3.3 Simulation and Results; 4 Bargaining-Game-Based Coordination for Urban Congestion Management

4.1 Urban Traffic Model4.2 Bargaining-Game Approach to Congestion Management in Urban Traffic; 4.3 Simulation and Results; 4.4 Disagreement Point Analysis; 5 Conclusion; Acknowledgments; References; 2 Advanced Information Feedback Coupled with an Evolutionary Game in Intelligent Transportation Systems; Abstract; 1 Introduction; 2 The Models and Feedback Strategies; 2.1 Notations; 2.2 Evolutionary Game Theory; 2.3 The NS Mechanism; 2.4 Two-Route Model and Exit Scenario; 2.4.1 Two-Route Scenario; 2.4.2 Exit Scenario; 2.5 Related Definitions; 3 Simulation Results

3.1 Advanced Information Feedback in a 1-2-1 Route ITS3.2 Evolutionary Game Coupled with the NS Model in a 1-2-1 Route ITS; 4 Conclusion; Acknowledgments; References; 3 Solving a Dynamic User-Optimal Route Guidance Problem Based on Joint Strategy Fictitious Play; Abstract; 1 Introduction; 2 User-Optimal Route Guidance Problem; 2.1 Problem Formulation; 2.2 Traffic Flow Model and Link Travel Time Prediction; 2.3 Iterative Solution Algorithm Based on the MSA; 3 Joint Strategy Fictitious Play for Dynamic User-Optimal Route Guidance Problem; 3.1 Fictitious Play

3.2 Distributed Joint Strategy Fictitious Play Algorithm Under Information Provision4 Numerical Study; 4.1 Computational Results; 5 Conclusions; Acknowledgments; References; 4 A Psycho-Social Agent-Based Model of Driver Behavior Dynamics; Abstract; 1 Introduction; 2 Holistic-Emergent Social Interaction-Oriented Dynamics (HESIOD) Model; 3 Control Dimensions and Communication Topologies; 4 Results; 5 Concluding Remarks and Further Issues; References; 5 Game-Theoretic Context and Interpretation of Kerner's Three-Phase Traffic Theory; Abstract; 1 Introduction

2 Four Classical Developments in Traffic Theory3 Kerner's Empirically Based Theory; 4 Common Games in Traffic Theory; 4.1 Two-Player Traffic Games; 4.1.1 Two-Player Chicken Game; 4.1.2 Two-Player Battle of the Sexes; 4.1.3 Two-Player Prisoner's Dilemma; 4.1.4 Two-Player Coordination Game; 4.2 n-Player Traffic Games; 4.2.1 n-Player Chicken Game; 4.2.2 n-Player Battle of the Sexes; 4.2.3 n-Player Prisoner's Dilemma; 4.2.4 n-Player Coordination Game; 5 Linking the Four Classical Developments with Game Theory; 6 Linking Kerner's Three-Phase Traffic Theory with Game Theory; 7 Conclusion

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