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Main Authors: Devriesere, Karel, Van Bulck, David, Goossens, Dries
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.19754
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author Devriesere, Karel
Van Bulck, David
Goossens, Dries
author_facet Devriesere, Karel
Van Bulck, David
Goossens, Dries
contents We present a new problem called the incomplete Traveling Tournament problem, which introduces the well known Traveling Tournament Problem into the realm of incomplete round-robin tournaments. We focus on the case where teams can face each opponent at most once. We give a formal description of this problem and show that it is NP-hard. We first discuss how we can obtain lower bounds and how to strengthen them. Then, we propose two integer programming formulations and compare their LP-relaxations. We also propose a third formulation that assumes that home-away patterns of teams are fixed. We discuss how a recently proposed metaheuristic for incomplete round-robin scheduling can be tailored to our problem. In doing so, we present a novel neighborhood structure and show it fully connects the home-away pattern solution space. Finally, problem instances are proposed, for which we derive lower and upper bounds. We show that these instances are challenging, making the development of efficient algorithms for the incomplete Traveling Tournament problem an interesting direction for future research.
format Preprint
id arxiv_https___arxiv_org_abs_2603_19754
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The incomplete Traveling Tournament Problem
Devriesere, Karel
Van Bulck, David
Goossens, Dries
Optimization and Control
We present a new problem called the incomplete Traveling Tournament problem, which introduces the well known Traveling Tournament Problem into the realm of incomplete round-robin tournaments. We focus on the case where teams can face each opponent at most once. We give a formal description of this problem and show that it is NP-hard. We first discuss how we can obtain lower bounds and how to strengthen them. Then, we propose two integer programming formulations and compare their LP-relaxations. We also propose a third formulation that assumes that home-away patterns of teams are fixed. We discuss how a recently proposed metaheuristic for incomplete round-robin scheduling can be tailored to our problem. In doing so, we present a novel neighborhood structure and show it fully connects the home-away pattern solution space. Finally, problem instances are proposed, for which we derive lower and upper bounds. We show that these instances are challenging, making the development of efficient algorithms for the incomplete Traveling Tournament problem an interesting direction for future research.
title The incomplete Traveling Tournament Problem
topic Optimization and Control
url https://arxiv.org/abs/2603.19754