Quadratic Optimization Models for Balancing Preferential Access and Fairness: Formulations and Optimality Conditions
Schmitt C, Singh B (2024)
Publication Type: Journal article
Publication year: 2024
Journal
Book Volume: 36
Pages Range: 1150-1167
Journal Issue: 5
Abstract
Typically, within facility location problems, fairness is defined in terms of accessibility of users. However, for facilities perceived as undesirable by communities hosting them, fairness between the usage of facilities becomes especially important. Limited research exists on this notion of fairness. To close this gap, we develop a series of optimization models for the allocation of populations of users to facilities such that access for users is balanced with a fair utilization of facilities. The optimality conditions of the underlying nonconvex quadratic models state the precise balance between accessibility and fairness. We define new classes of fairness and a metric to quantify the extent to which fairness is achieved in both optimal and suboptimal allocations. We show that a continuous relaxation of our central model is sufficient to achieve a perfect extent of fairness, while a special case reduces to the classical notion of proportional fairness. Our work is motivated by pervasive ecological challenges faced by the waste management community as policymakers seek to reduce the number of recycling centers in the last few years. As a computational case study, applying our models on data for the state of Bavaria in Germany, we find that even after the closure of a moderate number of recycling centers, large degrees of access can be ensured, provided that the closures are conducted optimally. Fairness, however, is impacted more, with facilities in rural regions shouldering larger loads of visiting populations than those in urban regions.
Involved external institutions
United Kingdom (GB)How to cite
APA:
Schmitt, C., & Singh, B. (2024). Quadratic Optimization Models for Balancing Preferential Access and Fairness: Formulations and Optimality Conditions. Informs Journal on Computing, 36(5), 1150-1167. https://doi.org/10.1287/ijoc.2022.0308
MLA:
Schmitt, Christian, and Bismark Singh. "Quadratic Optimization Models for Balancing Preferential Access and Fairness: Formulations and Optimality Conditions." Informs Journal on Computing 36.5 (2024): 1150-1167.
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