Finger Force Decoding from Motor Units Activity on Neuromorphic Hardware

July 31, 2025 ยท Declared Dead ยท ๐Ÿ› Biomedical Circuits and Systems Conference

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Authors Farah Baracat, Giacomo Indiveri, Elisa Donati arXiv ID 2507.23474 Category cs.NE: Neural & Evolutionary Citations 1 Venue Biomedical Circuits and Systems Conference Last Checked 4 months ago
Abstract
Accurate finger force estimation is critical for next-generation human-machine interfaces. Traditional electromyography (EMG)-based decoding methods using deep learning require large datasets and high computational resources, limiting their use in real-time, embedded systems. Here, we propose a novel approach that performs finger force regression using spike trains from individual motor neurons, extracted from high-density EMG. These biologically grounded signals drive a spiking neural network implemented on a mixed-signal neuromorphic processor. Unlike prior work that encodes EMG into events, our method exploits spike timing on motor units to perform low-power, real-time inference. This is the first demonstration of motor neuron-based continuous regression computed directly on neuromorphic hardware. Our results confirm accurate finger-specific force prediction with minimal energy use, opening new possibilities for embedded decoding in prosthetics and wearable neurotechnology.
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