Abstract
Optimising routing of vehicles constitutes a major logistic stake in many industrial contexts. We are interested here in the optimal resolution of special cases of vehicle routing problems, known as team orienteering problems. In these problems, vehicles are guided by a reward that can be collected from customers, while the length of routes is limited. The main difference with classical vehicle routing problems is that not all customers have to be visited. The solution method we propose here is based on a Branch & Price algorithm. It is, as far as we know, the first exact method proposed for such problems, except for a preliminary work from Gueguen (Methodes de résolution exacte pour problémes de tournées de véhicules. Thése de doctorat, école Centrale Paris 1999) and a work from Butt and Ryan (Comput Oper Res 26(4):427–441 1999). It permits to solve instances with up to 100 customers.
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References
Archetti C, Hertz A, Speranza MG (2005) Metaheuristics for the team orienteering problem. Technical Report GERAD-2005-47, Groupes d’Etudes et de Recherche en Analyse des Dcisions
Butt SE, Ryan DM (1999) An optimal solution procedure for the multiple tour maximum collection problem using column generation. Comput Oper Res 26(4): 427–441
Chao I-M, Golden BL, Wasil EA (1996) The team orienteering problem. Eur J Oper Res 88(3): 464–474
Desaulniers G, Desrosiers J, Solomon MM (eds) (2005) Column generation. GERAD 25th Anniversary Series. Springer, Berlin Heidelberg New York
Desrochers M, Desrosiers J, Solomon MM (1992) A new optimization algorithm for the vehicle routing problem with time windows. Oper Res 40(2): 342–354
Feillet D, Dejax P, Gendreau M, Gueguen C (2004) An exact algorithm for the elementary shortest path problem with resource constraints: application to some vehicle routing problems. Networks 44 (3): 216–229
Feillet D, Dejax P, Gendreau M (2005a). Traveling salesman problems with profits. Transp Sci 39(2): 188–205
Feillet D, Gendreau M, Rousseau LM (2005b) New refinements for the solution of vehicle routing problems with branch and price. Technical Report CRT-2005-08, Centre de Recherche sur les Transports
Gueguen C (1999) Méthodes de résolution exacte pour les problèmes de tournées de véhicules. Thése de doctorat, école Centrale Paris
Gueguen C (2006) Private communication
Harvey W, Ginsberg M (1995) Limited discrepancy search. In: Proceedings of the 14th international joint conference on artificial intelligence (IJCAI-95), Morgan Kaufmann, Montréal, pp. 607–615
Hayari N, Manier M-A, Bloch C, El Moudni A (2003) Un algorithme évolutionniste pour le problème de tournées sélectives avec contraintes de fenêtre de temps. In 4ème Conférence Francophone de MOdélisation et SIMulation MOSIM’03, Toulouse
Irnich S, Desaulniers G (2005) Shortest path problems with resource constraints. In: Desaulniers G, Desrosiers J, Solomon MM, (eds) Column generation, GERAD 25th Anniversary Series, chap 2, pp. 33–65, Springer, Berlin Heidelberg New York
Laporte G, Martello S (1990) The selective traveling salesman problem. Discrete Appl Math 26:193–207
Tang H, Miller-Hooks E (2005) A tabu search heuristic for the team orienteering problem. Comput Oper Res 32(6): 1379–1407
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Boussier, S., Feillet, D. & Gendreau, M. An exact algorithm for team orienteering problems. 4OR 5, 211–230 (2007). https://doi.org/10.1007/s10288-006-0009-1
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DOI: https://doi.org/10.1007/s10288-006-0009-1
Keywords
- Selective vehicle routing problem with time windows
- Team orienteering problem
- Column generation
- Branch & price
- Routing problems with profits