Learned Upper Bounds for the Time-Dependent Travelling Salesman Problem

Learned Upper Bounds for the Time-Dependent Travelling Salesman Problem

Authors: Adamo, Tommaso; Ghiani, Gianpaolo; Greco, Pierpaolo; Guerriero, Emanuela

IEEE Access - 2023 Volume 11, Pages 2001-2011

© 2013 IEEE.Fleet management plays a central role in several application contexts such as distribution planning, mail delivery, garbage collection, salt gritting, field service routing. Since road congestion has a big impact on driving times, fleet management can be enhanced by taking into account data on current traffic conditions. Today, most carriers gather high-quality historical traffic data by using global position system information. These data serve as an input for defining time-dependent travel times, i.e.Travel times changing according to traffic conditions throughout the day. Given a fixed-size fleet of vehicles and a graph with arc traversal times varying over time, Time-Dependent Vehicle Routing Problems aim to select the best routes while minimizing the travelling costs. The basic version with only one route is usually referred to as the Time-Dependent Travelling Salesman Problem. The main goal of this work is to define tight upper bounds for this problem by reusing the information gained when solving instances with similar features. This is customary in distribution management, where vehicle routes have to be generated over and over again with similar input data. To this aim, the authors devise an upper bounding technique based on the solution of a classical (and simpler) time-independent Asymmetric Travelling Salesman Problem, where the constant arc costs are suitably defined by the combined use of a Linear Program and a mix of unsupervised and supervised Machine Learning techniques. The effectiveness of this approach has been assessed through a computational campaign on the real travel time functions of two European cities: Paris and London. The overall average gap between the proposed heuristic and the best-known solutions is about 0.001%. For 31 instances, new best solutions have been obtained.

https://doi.org/10.1109/ACCESS.2022.3233852

Cite as:

@article{Adamo_2023,
	doi = {10.1109/access.2022.3233852},
	url = {https://doi.org/10.1109%2Faccess.2022.3233852},
	year = 2023,
	publisher = {Institute of Electrical and Electronics Engineers ({IEEE})},
	volume = {11},
	pages = {2001--2011},
	author = {Tommaso Adamo and Gianpaolo Ghiani and Pierpaolo Greco and Emanuela Guerriero},
	title = {Learned Upper Bounds for the Time-Dependent Travelling Salesman Problem},
	journal = {{IEEE} Access}
}



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