论文信息 - An exact algorithm for a Vehicle-and-Driver Scheduling Problem

An exact algorithm for a Vehicle-and-Driver Scheduling Problem

Abstract This article introduces a combinatorial optimization problem that consists of assigning tasks to machines and operators, and sequencing the tasks assigned to each one. Two configurations exist. Machines alternate configurations, while the operators must start and finish the process in the same configuration. Moreover, machines and operator have limited capacities. The sequencing of the tasks must guarantee that each one is performed by a machine and an operator at the same time, and it is determined in order to minimize an overall cost function. Two critical aspects of the problem are the need of synchronizing the machine and the operator performing each task, and the need of minimizing the changeovers, which are pairs of tasks done consecutively by the same machine but by different operators. The problem is modeled as a vehicle routing problem with two types of vehicles and with two depots. We propose a mixed integer programming formulation, and introduce valid inequalities to strengthen its linear programming relaxation. We describe separation routines for these inequalities and design a branch-and-cut algorithm for the problem. The algorithm is tested on a set of benchmark instances showing that it is able to solve to optimality instances with up to 50 customers.

Bencomo Domínguez-Martín | Inmaculada Rodríguez Martín | Juan José Salazar González | Juan José SALAZAR-GONZÁLEZ | Bencomo Domínguez-Martín

[1] Adam N. Letchford,et al. A new branch-and-cut algorithm for the capacitated vehicle routing problem , 2004, Math. Program..

[2] Nicos Christofides,et al. The vehicle routing problem , 1976, Revue française d'automatique, informatique, recherche opérationnelle. Recherche opérationnelle.

[3] Gilbert Laporte,et al. Solving a Family of Multi-Depot Vehicle Routing and Location-Routing Problems , 1988, Transp. Sci..

[4] Thomas L. Morin,et al. A branch-and-cut algorithm for vehicle routing problems , 1994, Ann. Oper. Res..

[5] Gilbert Laporte,et al. Improvements and extensions to the Miller-Tucker-Zemlin subtour elimination constraints , 1991, Oper. Res. Lett..

[6] Giovanni Rinaldi,et al. Computational results with a branch and cut code for the capacitated vehicle routing problem , 1998 .

[7] Dennis Huisman,et al. Models and Algorithms for Integration of Vehicle and Crew Scheduling , 2000, J. Sched..

[8] R. A. Zemlin,et al. Integer Programming Formulation of Traveling Salesman Problems , 1960, JACM.

[9] Juan-José Salazar-González,et al. Approaches to solve the fleet-assignment, aircraft-routing, crew-pairing and crew-rostering problems of a regional carrier , 2014 .

[10] Juan José Salazar González,et al. Optimal Solutions to a Real-World Integrated Airline Scheduling Problem , 2017, Transp. Sci..