触觉传感器
电容感应
计算机科学
神经形态工程学
接近传感器
边缘计算
机器人学
计算机硬件
嵌入式系统
人工智能
机器人
人工神经网络
GSM演进的增强数据速率
操作系统
作者
Yan Chen,Jie Cao,Jie Qiu,Dongzi Yang,Mengyang Liu,Mengru Zhang,Chenyang Li,Zhongyuan Wu,Jie Yu,Xumeng Zhang,Xianzhe Chen,Zhangcheng Huang,Enming Song,Ming Wang,Qi Liu,Ming Liu
标识
DOI:10.1038/s41467-025-60703-7
摘要
Abstract Real-time sensing and processing of tactile information are essential to enhance the capability of artificial electronic skins (e-skins), enabling unprecedented intelligent applications in tactile exploration and object manipulation. However, conventional tactile e-skin systems typically execute redundant data transfer and conversion for decision making due to their physical separation between sensors and processing units, leading to high transmission latency and power consumption. Here, we report an in-sensor tactile computing system based on a flexible capacitive pressure sensor array. This system utilizes multiple connected sensor networks to execute in-situ analog multiplication and accumulation operations, achieving both tactile sensing and computing functionalities. We experimentally implemented the in-sensor tactile computing system for low-level tactile sensory processing tasks including noise reduction and edge detection. The consumed power for single sensing-computing operation is over 22 times lower than that of a conventional mixed electronic system. These results demonstrate that our capacitive in-sensor computing system paves a promising way for power-constrained applications such as robotics and human-machine interfaces.
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