A bio-inspired tactile nociceptor constructed by integrating wearable sensing paper and a VO<sub>2</sub>threshold switching memristor
Qing Xia, Yuxiang Qin, Peilun Qiu, Anbo Zheng, Xueshuo Zhang
Abstract
/Pt memristor exhibits all key features of nociceptors including threshold, relaxation, "no adaptation" and sensitization phenomena of allodynia and hyperalgesia. The E-skin shows high sensitivity and a broad sensing range and is capable of monitoring different human movements and physiological signals. With the bio-inspired artificial tactile nociceptive system, the threshold and sensitization properties under pressure stimuli are obtained successfully. Notably, this system could be used as an artificial tactile alarm system to demonstrate the potential applicability of humanoid robots. Thus, the present work is of great significance to the development of hardware architecture in artificial intelligence systems and replacement neuroprosthetics.