Abstract

An angle estimation algorithm for tracking indoor moving targets with WiFi is proposed. First, phase calibration and static path elimination are proposed and performed on the collected channel state information signals from different antennas. Then, the angle of arrival information is obtained with the joint estimation algorithm of the angle of arrival (AOA) and time of flight (TOF). To deal with the multipath effects, we adopt the DBscan spatiotemporal clustering algorithm with adaptive parameters. In addition, the time-continuous angle of arrival information is obtained by interpolating and supplementing points to extract the dynamic signal paths better. Finally, the least-squares method is used for linear fitting to obtain the final angle information of a moving target. Experiments are conducted with the tracking data set presented with Tsinghua’s Widar 2.0. The results show that the average angle estimation error with the proposed algorithm is smaller than Widar2.0. The average angle error is about 7.18° in the classroom environment, 3.62° in the corridor environment, and 12.16° in the office environment; they are smaller than the errors of the existing system.

Highlights

  • In recent years, indoor positioning technology has been developed and applied in many areas, and its commercial profits reached USD 10 billion in 2020 [1]

  • The indoor positioning technology based on Bluetooth has been proposed [2,3], its application is usually limited to a small range of about ten meters

  • To take advantage of the angle of arrival (AOA) history, this paper proposes an angle estimation algorithm that uses the past AOA

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Summary

Introduction

Indoor positioning technology has been developed and applied in many areas, and its commercial profits reached USD 10 billion in 2020 [1]. It can help locate patients in a hospital and diagnose depression, mania, and so on. In home care and supervision of children, it can be used to monitor abnormal behaviors. In large warehouses, it can locate goods and valuables. The indoor positioning technology using ultrasonic waves has been presented in [4,5]. An ultrasonic wave is susceptible to ambient temperature and the Doppler effect

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