Dynamic Vehicle Routing with Priority Classes of Stochastic Demands
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In this paper we introduce a dynamic vehicle routing problem in which there are multiple vehicles and multiple priority classes of service demands. Service demands of each priority class arrive in the environment randomly over time and require a random amount of on-site service that is characteristic of the class. To service a demand, one of the vehicles must travel to the demand location and remain there for the required on-site service time. The quality of service provided to each class is given by the expected delay between the arrival of a demand in the class and that demand's service completion. The goal is to design a routing policy for the service vehicles which minimizes a convex combination of the delays for each class. First, we provide a lower bound on the achievable values of the convex combination of delays. Then, we propose a novel routing policy and analyze its performance under heavy-load conditions (i.e., when the fraction of time the service vehicles spend performing on-site service approaches one). The policy performs within a constant factor of the lower bound, where the constant depends only on the number of classes, and is independent of the number of vehicles, the arrival rates of demands, the on-site service times, and the convex combination coefficients
Date issued
2010-01Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory; Massachusetts Institute of Technology. Department of Aeronautics and Astronautics; Massachusetts Institute of Technology. Laboratory for Information and Decision SystemsJournal
SIAM Journal on Control and Optimization
Publisher
Society of Industrial and Applied Mathematics
Citation
Smith, Stephen L. et al. “Dynamic Vehicle Routing with Priority Classes of Stochastic Demands.” SIAM Journal on Control and Optimization 48.5 (2010): 3224-3245. ©2010 Society for Industrial and Applied Mathematics
Version: Final published version
ISSN
0363-0129
1095-7138
Keywords
vehicle routing, optimization, multiagent systems, heterogeneous systems