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Split Demand One-to-One Pickup and Delivery Problems With the Shortest-Path Transport Along Real-Life Paths

Jian Xiong, Xin Qi, Fu Zhuo, Weixiong Zha

2020IEEE Access11 citationsDOIOpen Access PDF

Abstract

A variation of the One-to-one Pickup and Delivery Problem (OPDP) in connected graphs, the Split Demand One-to-one Pickup and Delivery Problem with the Shortest-path Transport along Real-life Paths (SDOPDPSTRP) is abstracted from passenger train operation plans based on networks. Unlike the classical OPDP, in the SDOPDPSTRP: the demands can be split and must be transported along the shortest path according to passengers requirements and vehicles should travel along a real-life path. A new kind of integer programming model is formulated for the SDOPDPSTRP based on the connection relationship between pickup-delivery demands (pd-pairs). Two different categories of splitting strategies are proposed to solve the SDOPDPSTRP: split the demands before the calculation and split the demands during the calculation. Two Multi-Start Variable Neighborhood Descent (a MS_VND originating from the other literature and a new MS_VND’ IN developed in this article) and seven neighborhood operators are proposed for these two splitting strategies to solve the SDOPDPSTRP. The results show that Approach III outperforms Approach I and Approach II in terms of average solutions with the same algorithm termination conditions and in terms of time efficiency, which has great practical significance for real-life transport organizations.

Topics & Concepts

PickupShortest path problemPath (computing)Constrained Shortest Path FirstComputer scienceMathematical optimizationDescent (aeronautics)Connection (principal bundle)K shortest path routingAlgorithmMathematicsTheoretical computer scienceGraphArtificial intelligenceComputer networkEngineeringGeometryImage (mathematics)Aerospace engineeringTransportation and Mobility InnovationsVehicle Routing Optimization MethodsUrban and Freight Transport Logistics
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