A transferable adaptive domain adversarial neural network for virtual reality augmented EMG-based gesture recognition

U Cote-Allard, G Gagnon-Turcotte… - … on Neural Systems …, 2021 - ieeexplore.ieee.org
U Cote-Allard, G Gagnon-Turcotte, A Phinyomark, K Glette, E Scheme, F Laviolette…
IEEE Transactions on Neural Systems and Rehabilitation Engineering, 2021ieeexplore.ieee.org
Within the field of electromyography-based (EMG) gesture recognition, disparities exist
between the off line accuracy reported in the literature and the real-time usability of a
classifier. This gap mainly stems from two factors: 1) The absence of a controller, making the
data collected dissimilar to actual control. 2) The difficulty of including the four main dynamic
factors (gesture intensity, limb position, electrode shift, and transient changes in the signal),
as including their permutations drastically increases the amount of data to be recorded …
Within the field of electromyography-based (EMG) gesture recognition, disparities exist between the off line accuracy reported in the literature and the real-time usability of a classifier. This gap mainly stems from two factors: 1) The absence of a controller, making the data collected dissimilar to actual control. 2) The difficulty of including the four main dynamic factors (gesture intensity, limb position, electrode shift, and transient changes in the signal), as including their permutations drastically increases the amount of data to be recorded. Contrarily, online datasets are limited to the exact EMG-based controller used to record them, necessitating the recording of a new dataset for each control method or variant to be tested. Consequently, this paper proposes a new type of dataset to serve as an intermediate between off line and online datasets, by recording the data using a real-time experimental protocol. The protocol, performed in virtual reality, includes the four main dynamic factors and uses an EMG-independent controller to guide movements. This EMG-independent feedback ensures that the user is in-the-loop during recording, while enabling the resulting dynamic dataset to be used as an EMG-based benchmark. The dataset is comprised of 20 able-bodied participants completing three to four sessions over a period of 14 to 21 days. The ability of the dynamic dataset to serve as a benchmark is leveraged to evaluate the impact of different-recalibration techniques for long-term (across-day) gesture recognition, including a novel algorithm, named TADANN. TADANN consistently and significantly (p <; 0.05) outperforms using fine-tuning as the recalibration technique.
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