Publication
Embedding Textile Capacitive Sensing into Smart Wearables as a Versatile Solution for Human Motion Capturing
Daniel Geißler; Bo Zhou; Hymalai Bello; Joanna Sorysz; Lala Ray; Hamraz Javaheri; Matthias Rüb; Jan Herbst; Esther Zahn; Emil Woop; Sizhen Bian; Hans Dieter Schotten; Gesche Joost; Paul Lukowicz
In: Nature Scientific Reports (Sci Rep), Vol. 14, No. 15797, Pages 1-14, Springer Nature, 2024.
Abstract
This work presents a novel and versatile approach to employ textile capacitive sensing as an effective solution for capturing human body movement through fashionable and everyday-life garments. Conductive textile patches are utilized for sensing the movement, working without the need for strain or direct body contact, wherefore the patches can sense only from their deformation within the garment. This principle allows the sensing area to be decoupled from the wearer’s body for improved wearing comfort and more pleasant integration. We demonstrate our technology based on multiple prototypes which have been developed by an interdisciplinary team of electrical engineers, computer scientists, digital artists, and smart fashion designers through several iterations to seamlessly incorporate the technology of capacitive sensing with corresponding design considerations into textile materials. The resulting accumulation of textile capacitive sensing wearables showcases the versatile application possibilities of our technology from single-joint angle measurements towards multi-joint body part tracking.