Transferable multi-modal fusion in knee angles and gait phases for their continuous prediction

Most wearable robots such as exoskeletons and prostheses can operate with dexterity, while wearers do not perceive them as part of their bodies. In this perspective, we contend that integrating environmental, physiological, and physical information through multi-modal fusion, incorporating human-in-the-loop control, utilizing neuromuscular interface, employing flexible electronics, and acquiring and processing human-robot information with biomechatronic chips, should all be leveraged towards building the next generation of wearable robots. These technologies could improve the embodiment of wearable robots. With optimizations in mechanical structure and clinical training, the next generation of wearable robots should better facilitate human motor and sensory reconstruction and enhancement.

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Beyond Gait: Seamless Knee Angle Prediction for Lower Limb Prosthesis in Multiple Scenarios

Wang,

Chen,

et al. 2025

IEEE Robot. Autom. Lett.

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Transferable multi-modal fusion in knee angles and gait phases for their continuous prediction

Cited by 4 publications

References 54 publications

An optimal signal selection method based on feature neighborhood using for human gait mode recognition

An optimal signal selection method based on feature neighborhood using for human gait mode recognition

Shaping high-performance wearable robots for human motor and sensory reconstruction and enhancement

Beyond Gait: Seamless Knee Angle Prediction for Lower Limb Prosthesis in Multiple Scenarios

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