基于雷达图像和动态时间翘曲的连续人体活动识别

2022 21st IEEE International Conference on Machine Learning and Applications (ICMLA) Pub Date : 2022-12-01 DOI:10.1109/ICMLA55696.2022.00076

Ruchita Mehta, V. Palade, S. Sharifzadeh, Bo Tan, Yordanka Karayaneva

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引用次数: 0

摘要

私人住宅区的远程人类活动识别(HAR)对老年人的生活有有益的影响，因为这群人需要定期监测健康状况。本文研究了利用毫米波多普勒雷达对人类日常活动进行连续探测的问题。与之前的大多数研究不同，这项工作记录了连续系列活动的数据，而不是单个活动。这一系列的活动与现实生活中的活动模式相似。动态时间翘曲(Dynamic Time Warping, DTW)算法用于在记录的时间序列数据中检测人类活动，并与其他时间序列分类方法进行比较。DTW需要较少的标记数据。使用三种策略提供了DTW的输入，并对所获得的结果进行了比较。第一种方法使用帧的像素级数据(称为unsup -level)。在另外两种策略中，使用卷积变分自编码器(CVAE)从多普勒帧序列中提取无监督编码特征(UnSup-EnLevel)和有监督编码特征(Sup-EnLevel)。结果表明，supp - enlevel特征优于unsupp - enlevel和unsupp - level策略。然而，unsup - level策略在不使用注释的情况下表现得出奇地好。

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Continuous Human Activity Recognition using Radar Imagery and Dynamic Time Warping

Remote Human Activity Recognition (HAR) in a private residential area has a beneficial influence on the elderly population's life, since this group of people require regular monitoring of health conditions. This paper addresses the problem of continuous detection of daily human activities using mm-wave Doppler radar. Unlike most previous research, this work records the data in terms of continuous series of activities rather than individual activities. These series of activities are similar to real-life activity patterns. The Dynamic Time Warping (DTW) algorithm is used for the detection of human activities in the recorded time series of data and compared to other time-series classification methods. DTW requires less amount of labelled data. The input for DTW was provided using three strategies, and the obtained results were compared against each other. The first approach uses the pixel-level data of frames (named UnSup-PLevel). In the other two strategies, a Convolutional Variational Autoencoder (CVAE) is used to extract Un-Supervised Encoded features (UnSup-EnLevel) and Supervised Encoded features (Sup-EnLevel) from the series of Doppler frames. Results demonstrates the superiority of the Sup-EnLevel features over UnSup-EnLevel and UnSup-PLevel strategies. However, the performance of the UnSup-PLevel strategy worked surprisingly well without using annotations.

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2022 21st IEEE International Conference on Machine Learning and Applications (ICMLA)

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