Port Automation and Vehicle Scheduling
portes grátis
Port Automation and Vehicle Scheduling
Advanced Algorithms for Scheduling Problems of AGVs
Tsang, Edward P. K.; Rashidi, Hassan
Taylor & Francis Ltd
08/2022
278
Dura
Inglês
9781032306179
15 a 20 dias
721
Descrição não disponível.
1. Introduction
PART 1 OPTIMIZATION PROBLEMS FACING MODERN CONTAINER TERMINALS
2. Problems in Container Terminals
3. Formulations of the Problems
4. Solutions to the Decisions: Review and Suggestions
PART 2 ADVANCED ALGORITHMS FOR THE SCHEDULING PROBLEM OF AUTOMATED GUIDED VEHICLES
5. Vehicle Scheduling: A Minimum Cost Flow Problem
6. Network Simplex: The Fastest Algorithm
7. Network Simplex Plus: Complete Advanced Algorithm
8. Dynamic Network Simplex: Dynamic Complete Advanced Algorithm
9. Greedy Vehicle Search: An Incomplete Advanced Algorithm
10. Multi-Load and Heterogeneous Vehicles Scheduling: Hybrid Solutions
11. Integrated Management of Equipment in Automated Container Terminals
12. Conclusions and Future Research
Appendix: Information on Web
PART 1 OPTIMIZATION PROBLEMS FACING MODERN CONTAINER TERMINALS
2. Problems in Container Terminals
3. Formulations of the Problems
4. Solutions to the Decisions: Review and Suggestions
PART 2 ADVANCED ALGORITHMS FOR THE SCHEDULING PROBLEM OF AUTOMATED GUIDED VEHICLES
5. Vehicle Scheduling: A Minimum Cost Flow Problem
6. Network Simplex: The Fastest Algorithm
7. Network Simplex Plus: Complete Advanced Algorithm
8. Dynamic Network Simplex: Dynamic Complete Advanced Algorithm
9. Greedy Vehicle Search: An Incomplete Advanced Algorithm
10. Multi-Load and Heterogeneous Vehicles Scheduling: Hybrid Solutions
11. Integrated Management of Equipment in Automated Container Terminals
12. Conclusions and Future Research
Appendix: Information on Web
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
AGV scheduling problems;Algorithms for automated guided vehicles;Port automation;automated guided vehicle (AGV);Vehicle scheduling;Vehicle scheduling in port automation;AGVs;Container terminals;Optimization problems;NSA;Minimum cost flow model;Automated Container Terminals;AGV Schedule;QC;MCF Problem;Vice Versa;Minimum Cost Flow;Outbound Containers;Scheduling Problem;Dynamic Scheduling Problem;Inbound Container;Transshipment Node;Rout AGVs;Supply Nodes;Vehicle Routing Problem;SCs;Pickup Node;Unloading Containers;Np Hard Problem;Huge Search Space;GA
1. Introduction
PART 1 OPTIMIZATION PROBLEMS FACING MODERN CONTAINER TERMINALS
2. Problems in Container Terminals
3. Formulations of the Problems
4. Solutions to the Decisions: Review and Suggestions
PART 2 ADVANCED ALGORITHMS FOR THE SCHEDULING PROBLEM OF AUTOMATED GUIDED VEHICLES
5. Vehicle Scheduling: A Minimum Cost Flow Problem
6. Network Simplex: The Fastest Algorithm
7. Network Simplex Plus: Complete Advanced Algorithm
8. Dynamic Network Simplex: Dynamic Complete Advanced Algorithm
9. Greedy Vehicle Search: An Incomplete Advanced Algorithm
10. Multi-Load and Heterogeneous Vehicles Scheduling: Hybrid Solutions
11. Integrated Management of Equipment in Automated Container Terminals
12. Conclusions and Future Research
Appendix: Information on Web
PART 1 OPTIMIZATION PROBLEMS FACING MODERN CONTAINER TERMINALS
2. Problems in Container Terminals
3. Formulations of the Problems
4. Solutions to the Decisions: Review and Suggestions
PART 2 ADVANCED ALGORITHMS FOR THE SCHEDULING PROBLEM OF AUTOMATED GUIDED VEHICLES
5. Vehicle Scheduling: A Minimum Cost Flow Problem
6. Network Simplex: The Fastest Algorithm
7. Network Simplex Plus: Complete Advanced Algorithm
8. Dynamic Network Simplex: Dynamic Complete Advanced Algorithm
9. Greedy Vehicle Search: An Incomplete Advanced Algorithm
10. Multi-Load and Heterogeneous Vehicles Scheduling: Hybrid Solutions
11. Integrated Management of Equipment in Automated Container Terminals
12. Conclusions and Future Research
Appendix: Information on Web
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
AGV scheduling problems;Algorithms for automated guided vehicles;Port automation;automated guided vehicle (AGV);Vehicle scheduling;Vehicle scheduling in port automation;AGVs;Container terminals;Optimization problems;NSA;Minimum cost flow model;Automated Container Terminals;AGV Schedule;QC;MCF Problem;Vice Versa;Minimum Cost Flow;Outbound Containers;Scheduling Problem;Dynamic Scheduling Problem;Inbound Container;Transshipment Node;Rout AGVs;Supply Nodes;Vehicle Routing Problem;SCs;Pickup Node;Unloading Containers;Np Hard Problem;Huge Search Space;GA
