Epidemiology-constrained Seating Plan Problem

IF 1.8 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Foundations of Computing and Decision Sciences Pub Date : 2022-09-01 DOI:10.2478/fcds-2022-0013

J. Da̧bkowski, Przemysław Kacperski, M. Kaleta

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Abstract

Abstract The emergence of an infectious disease pandemic may result in the introduction of restrictions in the distance and number of employees, as was the case of COVID-19 in 2020/2021. In the face of fluctuating restrictions, the process of determining seating plans in office space requires repetitive execution of seat assignments, and manual planning becomes a time-consuming and error-prone task. In this paper, we introduce the Epidemiology-constrained Seating Plan problem (ESP), and we show that it, in general, belongs to the NP-complete class. However, due to some regularities in input data that could a affect computational complexity for practical cases, we conduct experiments for generated test cases. For that reason, we developed a computational environment, including the test case generator, and we published generated benchmarking test cases. Our results show that the problem can be solved to optimality by CPLEX solver only for specific settings, even in regular cases. Therefore, there is a need for new algorithms that could optimize seating plans in more general cases.

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流行病学约束的座位计划问题

摘要传染病大流行的出现可能会导致对距离和员工人数的限制，就像2020/2021年新冠肺炎的情况一样。面对波动的限制，确定办公空间座位计划的过程需要重复执行座位分配，手动规划成为一项耗时且容易出错的任务。在本文中，我们介绍了流行病学约束的座位计划问题（ESP），并证明了它在一般情况下属于NP完全类。然而，由于输入数据中的一些规律可能会影响实际案例的计算复杂性，我们对生成的测试案例进行了实验。出于这个原因，我们开发了一个计算环境，包括测试用例生成器，并发布了生成的基准测试用例。我们的结果表明，CPLEX求解器只能在特定设置下，甚至在常规情况下，将问题求解到最优性。因此，需要一种新的算法，可以在更一般的情况下优化座位计划。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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