Human-Machine Interfaces (HMIs) are a rapidly progressing field, and gesture recognition is a promising method in industrial, consumer, and health use cases. Surface electromyography (sEMG) is a State-of-the-Art (SoA) pathway for human-to-machine communication. Currently, the research goal is a more intuitive and fluid control, moving from signal classification of discrete positions to continuous control based on regression. The sEMG-based regression is still scarcely explored in research since most approaches have addressed classification. In this work, we propose the first event-based EMG encoding applied to the regression of hand kinematics suitable for working in streaming on a low-power microcontroller (STM32 F401, mounting ARM Cortex-M4). The motivation for event-based encoding is to exploit upcoming neuromorphic hardware to benefit from reduced latency and power consumption. We achieve a Mean Absolute Error of 8.8± 2.3 degrees on 5 degrees of actuation on the public dataset NinaPro DB8, comparable with the SoA Deep Neural Network (DNN). We use 9× less memory and 13× less energy per inference, with 10× shorter latency per inference compared to the SoA deep net, proving suitable for resource-constrained embedded platforms.

Event-based Low-Power and Low-Latency Regression Method for Hand Kinematics from Surface EMG / Zanghieri, M.; Benatti, S.; Benini, L.; Donati, E.. - (2023), pp. 293-298. (Intervento presentato al convegno 9th IEEE International Workshop on Advances in Sensors and Interfaces, IWASI 2023 tenutosi a ita nel 2023) [10.1109/IWASI58316.2023.10164372].

Event-based Low-Power and Low-Latency Regression Method for Hand Kinematics from Surface EMG

Zanghieri M.;Benatti S.;Benini L.;
2023

Abstract

Human-Machine Interfaces (HMIs) are a rapidly progressing field, and gesture recognition is a promising method in industrial, consumer, and health use cases. Surface electromyography (sEMG) is a State-of-the-Art (SoA) pathway for human-to-machine communication. Currently, the research goal is a more intuitive and fluid control, moving from signal classification of discrete positions to continuous control based on regression. The sEMG-based regression is still scarcely explored in research since most approaches have addressed classification. In this work, we propose the first event-based EMG encoding applied to the regression of hand kinematics suitable for working in streaming on a low-power microcontroller (STM32 F401, mounting ARM Cortex-M4). The motivation for event-based encoding is to exploit upcoming neuromorphic hardware to benefit from reduced latency and power consumption. We achieve a Mean Absolute Error of 8.8± 2.3 degrees on 5 degrees of actuation on the public dataset NinaPro DB8, comparable with the SoA Deep Neural Network (DNN). We use 9× less memory and 13× less energy per inference, with 10× shorter latency per inference compared to the SoA deep net, proving suitable for resource-constrained embedded platforms.
2023
9th IEEE International Workshop on Advances in Sensors and Interfaces, IWASI 2023
ita
2023
293
298
Zanghieri, M.; Benatti, S.; Benini, L.; Donati, E.
Event-based Low-Power and Low-Latency Regression Method for Hand Kinematics from Surface EMG / Zanghieri, M.; Benatti, S.; Benini, L.; Donati, E.. - (2023), pp. 293-298. (Intervento presentato al convegno 9th IEEE International Workshop on Advances in Sensors and Interfaces, IWASI 2023 tenutosi a ita nel 2023) [10.1109/IWASI58316.2023.10164372].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1315491
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