Abstract
The increasing integration of technology in our daily lives demands the development of more convenient human–computer interaction (HCI) methods. Most of the current hand-based HCI strategies exhibit various limitations, e.g., sensibility to variable lighting conditions and limitations on the operating environment. Further, the deployment of such systems is often not performed in resource-constrained contexts. Inspired by the MobileNetV1 deep learning network, this paper presents a novel hand gesture recognition system based on frequency-modulated continuous wave (FMCW) radar, exhibiting a higher recognition accuracy in comparison to the state-of-the-art systems. First of all, the paper introduces a method to simplify radar preprocessing while preserving the main information of the performed gestures. Then, a deep neural classifier with the novel Depthwise Expansion Module based on the depthwise separable convolutions is presented. The introduced classifier is optimized and deployed on the Coral Edge TPU board. The system defines and adopts eight different hand gestures performed by five users, offering a classification accuracy of 98.13% while operating in a low-power and resource-constrained environment.
Highlights
In recent years, computing technology has become an intrinsic part of our daily lives, and automation is becoming inevitable [1]
In this work we have presented a novel deep learning classifier—Radar Edge Network
We have illustrated the detailed implementation of a hand gesture recognition system using an frequency-modulated continuous wave (FMCW) radar
Summary
In recent years, computing technology has become an intrinsic part of our daily lives, and automation is becoming inevitable [1]. Optical-based gesture recognition frameworks are highly accurate but are, in general, environment dependent [15,16]. In such systems, lightning conditions negatively affect the overall system performance. The tonal and physical variations, e.g., background noise, drastically influence the overall system accuracy [11,12,13,17]. To deal with these problems, wearable devices have been proposed to improve the overall system’s performance [18,19]. Unlike optical sensors and wearable devices, radar-based gesture recognition techniques may overcome those limitations [20]
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