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An Insulated Flexible Sensor for Stable Electromyography Detection : Application to Prosthesis Control
AuthorRoland, Theresa ; Wimberger, Kerstin ; Amsuess, Sebastian ; Russold, Michael Friedrich ; Baumgartner, Werner
Published in
Sensors, 2019, Vol. 19, Issue 4, page 961
PublishedMDPI, 2019
Document typeJournal Article
Keywords (EN)insulated sensing / capacitive sensing / electromyography / biosignal / flexible sensor / textile sensor / active sensor / upper-limb prostheses
URNurn:nbn:at:at-ubl:3-1578 Persistent Identifier (URN)
 The work is publicly available
An Insulated Flexible Sensor for Stable Electromyography Detection [40.24 mb]
Abstract (English)

Electromyography (EMG), the measurement of electrical muscle activity, is used in a variety of applications, including myoelectric upper-limb prostheses, which help amputees to regain independence and a higher quality of life. The state-of-the-art sensors in prostheses have a conductive connection to the skin and are therefore sensitive to sweat and require preparation of the skin. They are applied with some pressure to ensure a conductive connection, which may result in pressure marks and can be problematic for patients with circulatory disorders, who constitute a major group of amputees. Due to their insulating layer between skin and sensor area, capacitive sensors are insensitive to the skin condition, they require neither conductive connection to the skin nor electrolytic paste or skin preparation. Here, we describe a highly stable, low-power capacitive EMG measurement set-up that is suitable for real-world application. Various flexible multi-layer sensor set-ups made of copper and insulating foils, flex print and textiles were compared. These flexible sensor set-ups adapt to the anatomy of the human forearm, therefore they provide high wearing comfort and ensure stability against motion artifacts. The influence of the materials used in the sensor set-up on the magnitude of the coupled signal was demonstrated based on both theoretical analysis and measurement.The amplifier circuit was optimized for high signal quality, low power consumption and mobile application. Different shielding and guarding concepts were compared, leading to high SNR.

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