计算机科学
解码方法
电压
计算机硬件
电磁线圈
波形
字母表
语音识别
编码(社会科学)
偏转(物理)
编码(内存)
执行机构
身份(音乐)
人工智能
多样性(控制论)
信息传输
电子工程
加密
微控制器
信号(编程语言)
复杂可编程逻辑器件
功能(生物学)
作者
Qian Zhou,Yongchao Li,Yiwei Wang,H. Zhou,Pei He,Bing Ji,Bingpu Zhou,Junliang Yang
摘要
Human–machine interaction (HMI) interfaces capable of conveniently transmitting massive human-made information and conversely recognizing the identity (ID) of individuals are highly desired while remaining challenging. Herein, a programmable self-powered handwritten e-skin consisted of soft magnetized pillars (MPs) and an underneath flexible coil electrode for convenient, efficient and ID identifiable HMI applications is presented. With the built-in magnetic moment alignment, the deflection and elastic recovery (ER) of the soft MPs triggered by sliding operations can induce the sequential generation of sliding-adaptive negative voltage signals and fixed ER-induced positive voltage signals. The sliding-adaptive signals can originally serve as the bio-mechanical information of individuals to recognize the habit-related sliding speeds for ID identification. The sliding-irrelevant ER-induced signals can be further programmed into a variety of non-overlapping levels by customizing the MPs with different elastic and magnetic properties. Such programmable non-overlapping ER-induced signals not only ensure the capability of encoding massive information, but also endow the function of single-channel addressing of the e-skin. With these distinctive features, the potential applications of high-capacity commands output for game character controlling, single-channel handwritten transmission of alphabet information, and password/ID dual decoding (with an average accuracy rate of 99.5%) are successfully demonstrated.
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