Journal
IEEE TRANSACTIONS ON MOBILE COMPUTING
Volume 22, Issue 9, Pages 5198-5215Publisher
IEEE COMPUTER SOC
DOI: 10.1109/TMC.2022.3175170
Keywords
Ultrasound; gesture recognition
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In this paper, a Dynamic Speed Warping (DSW) algorithm is proposed for one-shot learning of device-free acoustic gesture signals performed by different users. The design of DSW is based on the observation that gesture type is determined by the trajectory of hand components rather than the movement speed. By dynamically scaling the speed distribution and tracking the movement distance along the trajectory, DSW can effectively match gesture signals from different domains with a ten-fold difference in speeds. Experimental results show that DSW can achieve a recognition accuracy of 97% for gestures performed by unknown users while only using one training sample of each gesture type from four training users.
In this paper, we propose a Dynamic Speed Warping (DSW) algorithm to enable one-shot learning for device-free acoustic gesture signals performed by different users. The design of DSW is based on the observation that the gesture type is determined by the trajectory of hand components rather than the movement speed. By dynamically scaling the speed distribution and tracking the movement distance along the trajectory, DSW can effectively match gesture signals from different domains with a ten-fold difference in speeds. Our experimental results show that DSW can achieve a recognition accuracy of 97% for gestures performed by unknown users while only using one training sample of each gesture type from four training users.
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