CP methods for scheduling and routing with time-dependent task costs

摘要

A particularly difficult class of scheduling and routing problems involves an objective that is a sum of time-varying action costs, which increases the size and complexity of such problems. Solve-and-improve approaches, which find an initial solution for a simplified model and improve it using a cost function, and mixed integer programming (MIP) are often used for solving such problems. However, constraint programming (CP), particularly with lazy clause generation (LCG), has been found to be faster than MIP for some scheduling problems with time-varying action costs. In this paper, we compare CP and LCG against a solve-and-improve approach for two recently introduced problems in the area of maritime logistics with time-varying action costs: the liner shipping fleet repositioning problem (LSFRP) and the bulk port cargo throughput optimisation problem (BPCTOP).We present a novel CP model for the LSFRP, which is faster than all previous methods and outperforms a simplified automated planning model without time-varying costs.We show that a LCG solver is faster for solving theBPCTOP than a standard finite domainCP solverwith a simplified model. We find that CP and LCG are effective methods for solving problems with time-dependent task costs and are worth investigating for other scheduling and routing problems that are currently being solved usingMIP or solve-and-improve approaches, even when customized global constraints are not available.We also investigate a novel approach to solving the BPCTOP—converting the problem into a vehicle routing problem (VRP) and solving using an existing VRP solver.