Citation

Szeto WY, Liu Y, Ho SC. Transp. Res. D Trans. Environ. 2016; 47: 104-135.

Copyright

(Copyright © 2016, Elsevier Publishing)

DOI

10.1016/j.trd.2016.05.005

PMID

unavailable

Abstract

In this paper, the single-vehicle static repositioning problem is studied. The objective of repositioning is to minimize the weighted sum of unmet customer demand and operational time on the vehicle route. To solve this problem, chemical reaction optimization (CRO) is proposed to handle the vehicle routes, and a subroutine is proposed to determine the loading and unloading quantities at each visited station. An enhanced version of CRO is proposed to improve the solution quality of the original CRO by adding new operators, rules, and intensive neighbor solution search methods. The concept of a neighbor-node set is proposed to narrow the solution search space. To illustrate the efficiency and accuracy of the enhanced CRO, different test scenarios are set and the results obtained from IBM ILOG CPLEX, the original CRO, and the enhanced CRO are compared. The computational results indicate that the enhanced CRO provides high-quality solutions with shorter computing times than those of IBM ILOG CPLEX and provides better solutions than the original CRO. The results also demonstrate that incorporation of the two neighbor-node sets into the enhanced CRO improves the solution quality, and the probability of running the intensive search should increase with iteration in the final part of the main stage of the algorithm to obtain better solutions.

Language: en