A Tabu Search Algorithm for the Split Delivery Vehicle Routing Problem
Transportation Science
Worst-Case Analysis for Split Delivery Vehicle Routing Problems
Transportation Science
A Column Generation Algorithm for a Rich Vehicle-Routing Problem
Transportation Science
Survey: The vehicle routing problem: A taxonomic review
Computers and Industrial Engineering
A tabu search with vocabulary building approach for the vehicle routing problem with split demands
International Journal of Metaheuristics
Split-Delivery Capacitated Arc-Routing Problem: Lower Bound and Metaheuristic
Transportation Science
An adaptive memory algorithm for the split delivery vehicle routing problem
Journal of Heuristics
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In the skip delivery problem (SDP), a fleet of vehicles must deliver skips to a set of customers. Each vehicle has a maximum capacity of two skips, and has to start and end its tour at a central depot. The demand of each customer can be greater than the capacity of the vehicles. The objective is to minimize the cost of the total distance traveled by the vehicles to serve all the customers. We show that the SDP is solvable in polynomial time, while its generalization to the case where all vehicles have a capacity greater than two, known as the split delivery vehicle routing problem (SDVRP), is shown to be NP-hard, even under restricted conditions on the costs. We also show that, if the costs are symmetrical and satisfy the triangle inequality, the SDP is reducible in polynomial time to a problem of possibly smaller size, where each customer has unitary demand. This property allows a remarkable simplification of the problem.