Optimal Stochastic Delivery Planning in Full-Truckload and Less-Than-Truckload Delivery
February 04, 2018 Β· Declared Dead Β· π IEEE Vehicular Technology Conference
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Authors
Suttinee Sawadsitang, Rakpong Kaewpuang, Siwei Jiang, Dusit Niyato, Ping Wang
arXiv ID
1802.08540
Category
cs.AI: Artificial Intelligence
Citations
5
Venue
IEEE Vehicular Technology Conference
Last Checked
4 months ago
Abstract
With an increasing demand from emerging logistics businesses, Vehicle Routing Problem with Private fleet and common Carrier (VRPPC) has been introduced to manage package delivery services from a supplier to customers. However, almost all of existing studies focus on the deterministic problem that assumes all parameters are known perfectly at the time when the planning and routing decisions are made. In reality, some parameters are random and unknown. Therefore, in this paper, we consider VRPPC with hard time windows and random demand, called Optimal Delivery Planning (ODP). The proposed ODP aims to minimize the total package delivery cost while meeting the customer time window constraints. We use stochastic integer programming to formulate the optimization problem incorporating the customer demand uncertainty. Moreover, we evaluate the performance of the ODP using test data from benchmark dataset and from actual Singapore road map.
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