Study on Accuracy of Min-Max Method Using Distance Error Model for Indoor Positioning

2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST) Pub Date : 2022-06-08 DOI:10.1109/iceast55249.2022.9826304

P. Supanakoon, W. Vinicchayakul, Nattapat Imsap, Noppapadon Pakanon, M. Chamchoy

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Abstract

Nowadays, the indoor positioning becomes a hot topic. The accuracy is necessary to be study in order to design the positioning system. In this paper, the accuracy of min-max method is studied using distance error model for indoor positioning. The estimated distance is evaluated from distance error model by using the received signal strength (RSS) with indoor channel consists of path loos and multipath fading models. After that, the estimated distance is used with min-max method to estimate the position of receiver and calculate the distance error. The distance error of each position is illustrated. The distance error with specific path loss exponent and standard deviation of multipath fading effect is shown and studied in the terms of probability density function (PDF) and cumulative distribution function (CDF). The results show that the distance error is low at position near transmitter, slightly increased as the path loss exponent decreases and significantly increased as the deviation of multipath fading effect increases.

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基于距离误差模型的最小-最大法室内定位精度研究

如今，室内定位成为一个热门话题。在设计定位系统时，必须对其精度进行研究。本文利用距离误差模型研究了最小-最大法在室内定位中的精度。利用接收信号强度(RSS)和多径衰落模型，从距离误差模型中估计距离。然后利用估计的距离用最小-最大法估计接收机的位置并计算距离误差。给出了各位置的距离误差。用概率密度函数(PDF)和累积分布函数(CDF)表示并研究了多径衰落效应的距离误差与特定路径损失指数和标准差的关系。结果表明，距离误差在发射机附近位置较低，随着路径损耗指数的减小而略有增大，随着多径衰落效应偏差的增大而显著增大。

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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2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST)

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