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arxiv: 2405.19351 · v1 · pith:W7WPQ5QL · submitted 2024-05-22 · eess.SP · cs.LG· cs.NE

Resonate-and-Fire Spiking Neurons for Target Detection and Hand Gesture Recognition: A Hybrid Approach

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classification eess.SP cs.LGcs.NE
keywords fastfourierapproachhandneuronstransformsdetectioneliminating
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Hand gesture recognition using radar often relies on computationally expensive fast Fourier transforms. This paper proposes an alternative approach that bypasses fast Fourier transforms using resonate-and-fire neurons. These neurons directly detect the hand in the time-domain signal, eliminating the need for fast Fourier transforms to retrieve range information. Following detection, a simple Goertzel algorithm is employed to extract five key features, eliminating the need for a second fast Fourier transform. These features are then fed into a recurrent neural network, achieving an accuracy of 98.21% for classifying five gestures. The proposed approach demonstrates competitive performance with reduced complexity compared to traditional methods

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Adaptive-Frequency Resonate-and-Fire Neurons for Spectral Estimation of Streaming Radar Signals

    cs.NE 2026-06 unverdicted novelty 6.0

    Adaptive-frequency resonate-and-fire neurons perform sample-by-sample spectral estimation for FMCW radar, with memory scaling by number of targets rather than signal length.