A Parameter Optimization Method for Fingerprint-Based Indoor Localization System Using IEEE 802.15.4 Devices

2021 3rd International Conference on Computer Communication and the Internet (ICCCI) Pub Date : 2021-06-25 DOI:10.1109/ICCCI51764.2021.9486801

Yuan-Zhi Huo, P. Puspitaningayu, N. Funabiki, K. Hamazaki, M. Kuribayashi, K. Kojima

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引用次数: 2

Abstract

To achieve the high accuracy while wearing an inexpensive, tiny, and long-life transmitter, we have developed a fingerprint-based indoor localization system. It adopts IEEE802.15.4 devices and restricts the detection granularity to one room in an indoor environment. Unfortunately, wireless signals of the devices often fluctuate due to human movements and other uncontrollable factors. It has been observed that it can be solved by assigning plural fingerprints to one room. However, their values need to be properly selected. In this paper, we study the parameter optimization method for this indoor localization system. An existing parameter optimization tool is employed where the score function is newly defined to estimate the optimality of the current parameters. For evaluations, we apply the method to the measured data using the system in #2 Engineering Building of Okayama University. The results show that the detection accuracy becomes higher than 95% for any room by increasing the number of fingerprints and optimizing the parameter values by the proposal.

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基于IEEE 802.15.4设备的室内指纹定位系统参数优化方法

为了在佩戴廉价、小巧、长寿命的发射器的同时实现高精度，我们开发了一种基于指纹的室内定位系统。它采用IEEE802.15.4设备，将检测粒度限制在室内环境中的一个房间。不幸的是，由于人的运动和其他不可控因素，设备的无线信号经常波动。据观察，它可以通过分配多个指纹到一个房间来解决。但是，需要正确选择它们的值。本文研究了该室内定位系统的参数优化方法。利用现有的参数优化工具，其中新定义分数函数来估计当前参数的最优性。为了进行评估，我们将该方法应用于冈山大学2号工程大楼的测量数据。结果表明，通过增加指纹数量和优化参数值，该方法对任意房间的指纹检测准确率均在95%以上。

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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2021 3rd International Conference on Computer Communication and the Internet (ICCCI)

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