Crainic / Gendreau / Gendron Network Design with Applications to Transportation and Logistics
Buch, Englisch,
372 Seiten, Gebunden, Book, Format (B × H): 155 mm x 235 mm
1. Auflage 2021,
372 Seiten, Gebunden, Book, Format (B × H): 155 mm x 235 mm
ISBN: 978-3-030-64017-0
Verlag: Springer, Berlin
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Network Design with Applications to Transportation and Logistics is divided into three parts. Part I examines basic design problems including fixed-cost network design and parallel algorithms. After addressing the basics, Part II focuses on more advanced models. Chapters cover topics such as multi-facility network design, flow-constrained network design, and robust network design. Finally Part III is dedicated entirely to the potential application areas for network design. These areas range from rail networks, to city logistics, to energy transport. All of the chapters are written by leading researchers in the field, which should appeal to analysts and planners.
Crainic, Teodor
Teodor Gabriel Crainic is Professor of Operations Research, Transportation, and Logistics and the NSERC Industrial Research Chair in Logistics Management at the School of Business Administration of the Université du Québec à Montréal (Canada). He is adjunct Professor at the Department of Computer Science and Operations Research of the Université de Montréal and the Department of Economics and Business Administration of the Molde University College, Norway.
Michel Gendreau is Professor of Operations Research at the Department of Applied Mathematics and Industrial Engineering of École Polytechnique de Montréal (Canada), where he holds the NSERC/Hydro-Québec Chair on the Stochastic Optimization of Electricity Generation. His main research area is the application of operations research to energy, transportation and telecommunication planning.
Bernard Gendron is a Professor at the Department of Computer Science and Operations Research at the University of Montréal (Canada). His research interests include integer and combinatorial optimization, large-scale optimization and parallel computing, and location and network design problems applied to transportation logistics and telecommunications.
Chapter 1. The Network Design Story.- Part I The Basic Design Problems.- Chapter 2. Fixed-Cost Network Design.- Chapter 3. Exact Methods for Fixed-cost Network Design.- Chapter 4. Meta-heuristics for Fixed-cost Network Design.- Chapter 5. Parallel Algorithms for Network Design.- Part II Advanced Models.- Chapter 6. Multi-Facility Network Design - General Integer Models.- Chapter 7. Multi-Facility Network Design - Binary Models.- Chapter 8. Topology-Constrained Network Design.- Chapter 9 Flow-Constrained Network Design.- Chapter 10. Bylevel Network Design.- Chapter 11 Multilayer Network Design.- Chapter 12 Stochastic Network Design.- Chapter 13 Robust network Design.- Part III Applications.- Chapter 14. Service Network Design.- Chapter 15. Hub-based Network Design.- Chapter 16. Motor Carrier Network Design.- Chapter 17. Rail Network Design.- Chapter 18. Maritime & River Navigation Network Design.- Chapter 19. Transit Transportation Network Design.- Chapter 20. Supply Chain - Logistics Networks.- Chapter 21. Collaborative Logistics and Network Design.- Chapter 22. City Logistics.- Chapter 23. Energy transport Networks.- Chapter 24. Conclusions and perspectives.
Research
Network Design with Applications to Transportation and Logistics is divided into three parts. Part I examines basic design problems including fixed-cost network design and parallel algorithms. After addressing the basics, Part II focuses on more advanced models. Chapters cover topics such as multi-facility network design, flow-constrained network design, and robust network design. Finally Part III is dedicated entirely to the potential application areas for network design. These areas range from rail networks, to city logistics, to energy transport. All of the chapters are written by leading researchers in the field, which should appeal to analysts and planners.
Crainic, Teodor
Teodor Gabriel Crainic is Professor of Operations Research, Transportation, and Logistics and the NSERC Industrial Research Chair in Logistics Management at the School of Business Administration of the Université du Québec à Montréal (Canada). He is adjunct Professor at the Department of Computer Science and Operations Research of the Université de Montréal and the Department of Economics and Business Administration of the Molde University College, Norway.
Michel Gendreau is Professor of Operations Research at the Department of Applied Mathematics and Industrial Engineering of École Polytechnique de Montréal (Canada), where he holds the NSERC/Hydro-Québec Chair on the Stochastic Optimization of Electricity Generation. His main research area is the application of operations research to energy, transportation and telecommunication planning.
Bernard Gendron is a Professor at the Department of Computer Science and Operations Research at the University of Montréal (Canada). His research interests include integer and combinatorial optimization, large-scale optimization and parallel computing, and location and network design problems applied to transportation logistics and telecommunications.
Chapter 1. The Network Design Story.- Part I The Basic Design Problems.- Chapter 2. Fixed-Cost Network Design.- Chapter 3. Exact Methods for Fixed-cost Network Design.- Chapter 4. Meta-heuristics for Fixed-cost Network Design.- Chapter 5. Parallel Algorithms for Network Design.- Part II Advanced Models.- Chapter 6. Multi-Facility Network Design - General Integer Models.- Chapter 7. Multi-Facility Network Design - Binary Models.- Chapter 8. Topology-Constrained Network Design.- Chapter 9 Flow-Constrained Network Design.- Chapter 10. Bylevel Network Design.- Chapter 11 Multilayer Network Design.- Chapter 12 Stochastic Network Design.- Chapter 13 Robust network Design.- Part III Applications.- Chapter 14. Service Network Design.- Chapter 15. Hub-based Network Design.- Chapter 16. Motor Carrier Network Design.- Chapter 17. Rail Network Design.- Chapter 18. Maritime & River Navigation Network Design.- Chapter 19. Transit Transportation Network Design.- Chapter 20. Supply Chain - Logistics Networks.- Chapter 21. Collaborative Logistics and Network Design.- Chapter 22. City Logistics.- Chapter 23. Energy transport Networks.- Chapter 24. Conclusions and perspectives.
Research
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