Robust myoelectric pattern recognition methods for reducing users’ calibration burden: challenges and future

Wang, Xiang; Ao, Di; Li, Le

doi:10.3389/fbioe.2024.1329209

Front. Bioeng. Biotechnol.

2024

DOI: 10.3389/fbioe.2024.1329209

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Robust myoelectric pattern recognition methods for reducing users’ calibration burden: challenges and future

Xiang Wang,

Di Ao,

Le Li

Abstract: Myoelectric pattern recognition (MPR) has evolved into a sophisticated technology widely employed in controlling myoelectric interface (MI) devices like prosthetic and orthotic robots. Current MIs not only enable multi-degree-of-freedom control of prosthetic limbs but also demonstrate substantial potential in consumer electronics. However, the non-stationary random characteristics of myoelectric signals poses challenges, leading to performance degradation in practical scenarios such as electrode shifting and s… Show more

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Unsupervised Domain Adaptation for Inter-Session Re-Calibration of Ultrasound-Based HMIs

Lykourinas,

Rottenberg,

Catthoor

et al. 2024

Sensors

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Human–Machine Interfaces (HMIs) have gained popularity as they allow for an effortless and natural interaction between the user and the machine by processing information gathered from a single or multiple sensing modalities and transcribing user intentions to the desired actions. Their operability depends on frequent periodic re-calibration using newly acquired data due to their adaptation needs in dynamic environments, where test–time data continuously change in unforeseen ways, a cause that significantly contributes to their abandonment and remains unexplored by the Ultrasound-based (US-based) HMI community. In this work, we conduct a thorough investigation of Unsupervised Domain Adaptation (UDA) algorithms for the re-calibration of US-based HMIs during within-day sessions, which utilize unlabeled data for re-calibration. Our experimentation led us to the proposal of a CNN-based architecture for simultaneous wrist rotation angle and finger gesture prediction that achieves comparable performance with the state-of-the-art while featuring 87.92% less trainable parameters. According to our findings, DANN (a Domain-Adversarial training algorithm), with proper initialization, offers an average 24.99% classification accuracy performance enhancement when compared to no re-calibration setting. However, our results suggest that in cases where the experimental setup and the UDA configuration may differ, observed enhancements would be rather small or even unnoticeable.

show abstract

Unsupervised Domain Adaptation for Inter-Session Re-Calibration of Ultrasound-Based HMIs

Lykourinas,

Rottenberg,

Catthoor

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

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Robust myoelectric pattern recognition methods for reducing users’ calibration burden: challenges and future

Cited by 1 publication

References 69 publications

Unsupervised Domain Adaptation for Inter-Session Re-Calibration of Ultrasound-Based HMIs

Unsupervised Domain Adaptation for Inter-Session Re-Calibration of Ultrasound-Based HMIs

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