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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/2605.10599
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author Devriesere, Karel
Van Bulck, David
Goossens, Dries
author_facet Devriesere, Karel
Van Bulck, David
Goossens, Dries
contents The incomplete round robin sports tournament format, where each team plays the same number of games but faces only a subset of the other teams, is becoming increasingly popular in both youth and professional competitions. In contrast to conventional round robin tournaments, however, neighborhood structures for scheduling incomplete round robin tournaments have largely remained unexplored. We fill this gap by proposing two novel neighborhood structures and describe them in graph theory terms. One of them introduces a single new game followed by a minimal repair chain, while the other introduces possibly many new games but only affects a single round. The latter is shown to fully connect the solution space. We embed the neighborhoods in an adaptive late acceptance hill climbing algorithm and show that the proposed algorithm obtains high quality and new best solutions for several sets of instances from the literature, thereby empirically confirming the effectiveness of the proposed neighborhoods.
format Preprint
id arxiv_https___arxiv_org_abs_2605_10599
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Novel neighborhood structures for incomplete round robin sports tournaments
Devriesere, Karel
Van Bulck, David
Goossens, Dries
Optimization and Control
The incomplete round robin sports tournament format, where each team plays the same number of games but faces only a subset of the other teams, is becoming increasingly popular in both youth and professional competitions. In contrast to conventional round robin tournaments, however, neighborhood structures for scheduling incomplete round robin tournaments have largely remained unexplored. We fill this gap by proposing two novel neighborhood structures and describe them in graph theory terms. One of them introduces a single new game followed by a minimal repair chain, while the other introduces possibly many new games but only affects a single round. The latter is shown to fully connect the solution space. We embed the neighborhoods in an adaptive late acceptance hill climbing algorithm and show that the proposed algorithm obtains high quality and new best solutions for several sets of instances from the literature, thereby empirically confirming the effectiveness of the proposed neighborhoods.
title Novel neighborhood structures for incomplete round robin sports tournaments
topic Optimization and Control
url https://arxiv.org/abs/2605.10599