Optimized Selection of Motorcycle Battery Swapping Stations Under Flexible Demand by Using Distance Function And Gis Technique

Q4 Decision Sciences ECTI Transactions on Computer and Information Technology Pub Date : 2023-09-30 DOI:10.37936/ecti-cit.2023173.253697

Athita On-Ouen, Jirayus Arbking, Nuttaporn Phakdee

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Abstract

Our research proposes an approach to finding a suitable location for a motorcycle Battery Swapping Station (BSS) that considers multiple objectives. We developed a model based on Euclidean distance with K-NN, the AHP function, a desired number of stations, and GIS-based road infrastructure data. This model also considers the maximum coverage area and satisfies the number of stations and geographical features. Additionally, we consider the average driving distance of the battery swapping station location. To facilitate analysis, square grids form cells representing road type, environmental characteristics, places, and population density. Our proposed framework provides decision-makers with a multi-objective and visually optimized motorcycle BSS location, allowing for a more flexible selection of exact BSS locations shown on a map. Our demonstration can be used to resolve the uncertain problem related to finding a place for a motorcycle battery swapping station location. to finding a place for a motorcycle battery swapping station location.

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基于距离函数和Gis技术的灵活需求下摩托车换电池站优化选择

我们的研究提出了一种考虑多个目标的寻找摩托车电池交换站(BSS)合适位置的方法。我们利用K-NN、AHP函数、期望的站点数量和基于gis的道路基础设施数据开发了一个基于欧几里得距离的模型。该模型还考虑了最大覆盖面积，满足台站数量和地理特征。另外，我们考虑换电池站位置的平均行驶距离。为了便于分析，方形网格形成了代表道路类型、环境特征、地点和人口密度的单元格。我们提出的框架为决策者提供了一个多目标和视觉优化的摩托车BSS位置，允许更灵活地选择精确的BSS位置显示在地图上。该方法可用于解决摩托车换电池站选址不确定的问题。找到一个地方的摩托车电池更换站的位置。

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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