The Multiple Gradual Maximal Covering Location Problem

IF 3.3 3区 地球科学 Q1 GEOGRAPHY Geographical Analysis Pub Date : 2024-07-11 DOI:10.1111/gean.12410
Ashleigh N. Price, Kevin M. Curtin
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Abstract

This article describes a new spatial optimization model, the Multiple Gradual Maximal Covering Location Problem (MG‐MCLP). This model is useful when coverage from multiple facilities or sensors is necessary to consider a demand to be covered, and when the quality of that coverage varies with the number of located facilities within the service distance, and the distance from the demand itself. The motivating example for this model uses a coupled GIS and optimization framework to determine the optimal locations for acoustic sensors—typically used in police applications for gunshot detection—in Tuscaloosa, AL. The results identify the optimal facility locations for allocating multiple facilities, at different locations, to cover multiple demands and evaluate those optimal locations with distance‐decay. Solving the MG‐MCLP over a range of values allows for comparing the performance of varying numbers of available resources, which could be used by public safety operations to demonstrate the number of resources that would be required to meet policy goals. The results illustrate the flexibility in designing alternative spatial allocation strategies and provide a tractable covering model that is solved with standard linear programming and GIS software, which in turn can improve spatial data analysis across many operational contexts.
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多重渐进最大覆盖定位问题
本文介绍了一种新的空间优化模型--多重渐进最大覆盖定位问题(MG-MCLP)。该模型适用于需要多个设施或传感器覆盖才能满足需求的情况,以及覆盖质量随服务距离内的设施数量和与需求本身的距离而变化的情况。该模型的激励示例使用了 GIS 和优化框架,以确定声学传感器的最佳位置--通常用于阿拉巴马州塔斯卡卢萨市的枪声探测警用应用。结果确定了在不同地点分配多个设施以满足多种需求的最佳设施位置,并对这些最佳位置进行了距离衰减评估。在一定数值范围内求解 MG-MCLP 可以比较不同数量可用资源的性能,公共安全业务部门可以用它来证明实现政策目标所需的资源数量。结果表明了设计替代空间分配策略的灵活性,并提供了一个可利用标准线性规划和地理信息系统软件求解的可控覆盖模型,这反过来又可以改进许多业务环境中的空间数据分析。
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来源期刊
CiteScore
8.70
自引率
5.60%
发文量
40
期刊介绍: First in its specialty area and one of the most frequently cited publications in geography, Geographical Analysis has, since 1969, presented significant advances in geographical theory, model building, and quantitative methods to geographers and scholars in a wide spectrum of related fields. Traditionally, mathematical and nonmathematical articulations of geographical theory, and statements and discussions of the analytic paradigm are published in the journal. Spatial data analyses and spatial econometrics and statistics are strongly represented.
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