记忆电阻器
触觉传感器
计算机科学
仿生学
人工智能
纳米技术
工程类
材料科学
机器人
电气工程
作者
Chuan Yang,Hongyan Wang,Zelin Cao,Xiaoliang Chen,Guangdong Zhou,Hongbin Zhao,Zhenhua Wu,Yong Zhao,Bai Sun
出处
期刊:Small
[Wiley]
日期:2023-12-27
卷期号:20 (19)
被引量:4
标识
DOI:10.1002/smll.202308918
摘要
Bioinspired tactile devices can effectively mimic and reproduce the functions of the human tactile system, presenting significant potential in the field of next-generation wearable electronics. In particular, memristor-based bionic tactile devices have attracted considerable attention due to their exceptional characteristics of high flexibility, low power consumption, and adaptability. These devices provide advanced wearability and high-precision tactile sensing capabilities, thus emerging as an important research area within bioinspired electronics. This paper delves into the integration of memristors with other sensing and controlling systems and offers a comprehensive analysis of the recent research advancements in memristor-based bionic tactile devices. These advancements incorporate artificial nociceptors and flexible electronic skin (e-skin) into the category of bio-inspired sensors equipped with capabilities for sensing, processing, and responding to stimuli, which are expected to catalyze revolutionary changes in human-computer interaction. Finally, this review discusses the challenges faced by memristor-based bionic tactile devices in terms of material selection, structural design, and sensor signal processing for the development of artificial intelligence. Additionally, it also outlines future research directions and application prospects of these devices, while proposing feasible solutions to address the identified challenges.
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