Accurate and Stable Wi-Fi based Indoor Localization and Classification Using Convolutional Neural Network

2021 IEEE VTS 17th Asia Pacific Wireless Communications Symposium (APWCS) Pub Date : 2021-08-01 DOI:10.1109/APWCS50173.2021.9548752

Aisha Javed, N. Hassan, C. Yuen

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引用次数: 2

Abstract

Indoor localization is essential for providing location based services inside homes, malls, and hospitals. Wi-Fi routers are available in almost every building and Wi-Fi chipsets are also available in almost every smartphone. Therefore, fingerprinting of Received Signal Strength Indicator (RSSI) values coming from Wi-Fi routers is a cheaper option for indoor localization. In conventional Wi-Fi fingerprinting methods, RSSI values are collected at various indoor locations and stored in a database. The device which needs localization, collects new RSSI values from its current unknown location. These values are compared with the database and the best match is returned as the current user location. Due to differences in Wi-Fi chipsets and environmental conditions, RSSI values fluctuate which makes accurate, stable, fast, and precise determination of user location difficult. If the user is inside a large multi-floor building, dataset scalability and RSSI fluctuations can make the task even more difficult. User tracking and determination of the direction in which the user is moving also becomes challenging due to hurdles and non-walkable points in the indoor environment. To solve these issues, in this paper we present a Wi-Fi fingerprinting method for large indoor environments that uses 1-D convolutional neural networks (CNN) for floor and region-status (hurdle, walkable point) classification. The procedure consists of collecting RSSI dataset which is then normalized and pre-processed. This step is essential for training the classification and localization model. The trained model can be used in real-time for fast, stable, and accurate classification of floors, region-status and user location coordinates. Based on our experiments inside a two floor university library, the proposed approach can classify the floors and region-status with an accuracy of 70.50% and 81.23% respectively, while the mean localization error is 3.47 m.

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基于Wi-Fi的室内精确稳定的卷积神经网络定位与分类

室内定位对于在家庭、商场和医院内提供基于位置的服务至关重要。几乎每栋建筑都有Wi-Fi路由器，几乎每部智能手机都有Wi-Fi芯片组。因此，对来自Wi-Fi路由器的接收信号强度指标(RSSI)值进行指纹识别是室内定位的一种更便宜的选择。在传统的Wi-Fi指纹识别方法中，RSSI值是在不同的室内位置收集并存储在数据库中。需要定位的设备从当前未知位置收集新的RSSI值。将这些值与数据库进行比较，并将最佳匹配作为当前用户位置返回。由于Wi-Fi芯片组和环境条件的差异，RSSI值存在波动，难以准确、稳定、快速、精确地确定用户位置。如果用户在大型多层建筑中，数据集可伸缩性和RSSI波动会使任务变得更加困难。由于室内环境中的障碍和不可行走点，用户跟踪和确定用户移动的方向也变得具有挑战性。为了解决这些问题，在本文中，我们提出了一种用于大型室内环境的Wi-Fi指纹识别方法，该方法使用一维卷积神经网络(CNN)进行地板和区域状态(障碍，可行走点)分类。该过程包括收集RSSI数据集，然后进行规范化和预处理。这一步对于训练分类和定位模型至关重要。训练后的模型可以实时、快速、稳定、准确地对楼层、区域状态和用户位置坐标进行分类。在某两层高校图书馆内进行的实验表明，该方法对楼层和区域状态的分类准确率分别为70.50%和81.23%，平均定位误差为3.47 m。

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 IEEE VTS 17th Asia Pacific Wireless Communications Symposium (APWCS)

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