A stretchable and flexible system for skin-mounted measurement of motion tracking and physiological signals.
EMBC(2014)
摘要
In this paper, we present a stretchable wearable system capable of i) measuring multiple physiological parameters and ii) transmitting data via radio frequency to a smart phone. The electrical architecture consists of ultra thin sensors (<; 20 μm thick) and a conformal network of associated active and passive electronics in a mesh-like geometry that can mechanically couple with the curvilinear surfaces of the human body. Spring-like metal interconnects between individual chips on board the device allow the system to accommodate strains approaching ~30% A representative example of a smart patch that measures movement and electromyography (EMG) signals highlights the utility of this new class of medical skin-mounted system in monitoring a broad range of neuromuscular and cardiovascular diseases.
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关键词
stretchable wearable system,electromyography signals,radiofrequency data transmission,multiple physiological parameters,chips-on-board,diseases,neurophysiology,flexible system,motion tracking,active electronics,disease monitoring,patient monitoring,cardiovascular diseases,curvilinear surfaces,medical signal processing,passive electronics,mechanical coupling,biomedical equipment,body sensor networks,cardiovascular system,spring-like metal interconnects,smart patch,ultrathin sensors,electromyography,electrical architecture,smart phones,neuromuscular diseases,human body,physiological signals,movement measurement,skin-mounted measurement,mesh-like geometry,biomedical electronics,skin,smart phone,medical skin-mounted system,conformal network
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