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Bioinspired tactile perception platform with information encryption function

Zhi-Wen Shi, Zheng-Yu Ren, Wei-Sheng Wang, Hui Xiao, Yu-Heng Zeng, Li-Qiang Zhu

Year
2022
Citations
8

Abstract

Mimicking tactile perception is critical to the development of advanced interactive neuromorphic platforms. Inspired by cutaneous perceptual functions, a bionic tactile perceptual platform is proposed. PDMS-based tactile sensors act as bionic skin touch receptors. Flexible indium tin oxide neuromorphic transistors fabricated with a single-step mask processing act as artificial synapses. Thus, the tactile perceptual platform possesses the ability of information processing. Interestingly, the flexible tactile perception platform can find applications in information encryption and decryption. With adoption of cipher, signal transmitted by the perception platform is encrypted. Thus, the security of information transmission is effectively improved. The flexible tactile perceptual platform would have potentials in cognitive wearable devices, advanced human–machine interaction system, and intelligent bionic robots.

Keywords

Neuromorphic engineeringPerceptionComputer scienceTactile perceptionEncryptionWearable computerRobotArtificial intelligenceHuman–computer interactionEmbedded system

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