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Optimal Capacity Modification for Stable Matchings with Ties

15 November 2024
Keshav Ranjan
Meghana Nasre
Prajakta Nimbhorkar
ArXiv (abs)PDFHTML
Main:1 Pages
5 Figures
Appendix:32 Pages
Abstract

We consider the Hospitals/Residents (HR) problem in the presence of ties in preference lists. Among the three notions of stability, viz. weak, strong, and super stability, we focus on the notion of strong stability. Strong stability has many desirable properties, both theoretically and practically; however, its existence is not guaranteed. In this paper, our objective is to optimally increase the quotas of hospitals to ensure that a strongly stable matching exists in the modified instance. First, we show that if ties are allowed in residents' preference lists, it may not be possible to augment the hospital quotas to obtain an instance that admits a strongly stable matching. When residents' preference lists are strict, we explore two natural optimization criteria: (i) minimizing the total capacity increase across all hospitals (MINSUM) and (ii) minimizing the maximum capacity increase for any hospital (MINMAX). We show that the MINSUM problem admits a polynomial-time algorithm, whereas the MINMAX problem is NP-hard. We prove an analogue of the Rural Hospitals theorem for the MINSUM problem. When each hospital incurs a cost for a unit increase in its quota, the MINSUM problem becomes NP-hard, even for 0/1 costs. In fact, we show that the problem cannot be approximated to any multiplicative factor. We also present a polynomial-time algorithm for optimal MINSUM augmentation when a specified subset of edges is required to be included in the matching. We show that the MINMAX problem is NP-hard in general. When hospital preference lists have ties of length at most ℓ+1\ell+1ℓ+1, we give a polynomial-time algorithm that increases each hospital's quota by at most ℓ\ellℓ. Amongst all instances obtained by at most ℓ\ellℓ augmentations per hospital, our algorithm produces a strongly stable matching that is best for residents.

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@article{ranjan2025_2411.10284,
  title={ Optimal Capacity Modification for Stable Matchings with Ties },
  author={ Keshav Ranjan and Meghana Nasre and Prajakta Nimbhorkar },
  journal={arXiv preprint arXiv:2411.10284},
  year={ 2025 }
}
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