The customer-centric, multi-commodity vehicle routing problem with split delivery

Abstract

In this paper, we present the Customer-centric, Multi-commodity Vehicle Routing Problem with Split Delivery (CMVRPSD) whose objective is to minimize total waiting time of customers in distributing multiple types of commodities by multiple capacitated vehicles. It is assumed that a customer's demand can be fulfilled by more than one vehicle. Two classes of decisions are involved in this problem: routing vehicles to customers and quantifying commodities to load and unload. The CMVRPSD can be applied to distributing commodities in customer-oriented distribution problems for both peacetime and disaster situations. The problem is formulated in two Mixed-Integer Linear Programming (MILP) models, and a heuristic method is proposed by adapting and synthesizing Simulated Annealing (SA) and Variable Neighborhood Search (VNS) for large-scale problems. Experimental results show that the proposed hybrid algorithm outperforms other applicable algorithms such as SA, VNS, and Nearest Neighborhood heuristic.