Arm motion classification using time-series analysis of the spectrogram frequency envelopes

Zhengxin Zeng; Moeness G. Amin; Tao Shan

doi:10.3390/rs12030454

Arm motion classification using time-series analysis of the spectrogram frequency envelopes

Zhengxin Zeng, Moeness G. Amin^*, Tao Shan

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Hand and arm gesture recognition using radio frequency (RF) sensing modality proves valuable in man-machine interfaces and smart environments. In this paper, we use the time-series analysis method to accurately measure the similarity of the micro-Doppler (MD) signatures between the training and test data, thus providing improved gesture classification. We characterize the MD signatures by the maximum instantaneous Doppler frequencies depicted in the spectrograms. In particular, we apply two machine learning (ML) techniques, namely, the dynamic time warping (DTW) method and the long short-term memory (LSTM) network. Both methods take into account the values as well as the temporal evolution and characteristics of the time-series data. It is shown that the DTW method achieves high gesture classification rates and is robust to time misalignment.

Original language	English
Article number	454
Journal	Remote Sensing
Volume	12
Issue number	3
DOIs	https://doi.org/10.3390/rs12030454
Publication status	Published - 1 Feb 2020

Keywords

Arm motion recognition
Dynamic time warping
Long short-term memory
Micro-doppler signature
Time-series analysis

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10.3390/rs12030454

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abstract = "Hand and arm gesture recognition using radio frequency (RF) sensing modality proves valuable in man-machine interfaces and smart environments. In this paper, we use the time-series analysis method to accurately measure the similarity of the micro-Doppler (MD) signatures between the training and test data, thus providing improved gesture classification. We characterize the MD signatures by the maximum instantaneous Doppler frequencies depicted in the spectrograms. In particular, we apply two machine learning (ML) techniques, namely, the dynamic time warping (DTW) method and the long short-term memory (LSTM) network. Both methods take into account the values as well as the temporal evolution and characteristics of the time-series data. It is shown that the DTW method achieves high gesture classification rates and is robust to time misalignment.",

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AU - Zeng, Zhengxin

AU - Amin, Moeness G.

AU - Shan, Tao

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AB - Hand and arm gesture recognition using radio frequency (RF) sensing modality proves valuable in man-machine interfaces and smart environments. In this paper, we use the time-series analysis method to accurately measure the similarity of the micro-Doppler (MD) signatures between the training and test data, thus providing improved gesture classification. We characterize the MD signatures by the maximum instantaneous Doppler frequencies depicted in the spectrograms. In particular, we apply two machine learning (ML) techniques, namely, the dynamic time warping (DTW) method and the long short-term memory (LSTM) network. Both methods take into account the values as well as the temporal evolution and characteristics of the time-series data. It is shown that the DTW method achieves high gesture classification rates and is robust to time misalignment.

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Arm motion classification using time-series analysis of the spectrogram frequency envelopes

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