Biomimetic Octopus Suction Cup with Attachment Force Self-Sensing Capability for Cardiac Adhesion

八达通(软件) 抽吸 粘附 吸盘 材料科学 纳米技术 工程类 复合材料 化学 机械工程 计算化学
作者
Ziwei Wang,Guangkai Sun,Xinwei Fan,Peng Xiao,Lianqing Zhu
出处
期刊:Soft robotics [Mary Ann Liebert, Inc.]
卷期号:11 (6): 1043-1054 被引量:8
标识
DOI:10.1089/soro.2023.0208
摘要

This study develops a biomimetic soft octopus suction device with integrated self-sensing capabilities designed to enhance the precision and safety of cardiac surgeries. The device draws inspiration from the octopus's exceptional ability to adhere to various surfaces and its sophisticated proprioceptive system, allowing for real-time adjustment of adhesive force. The research integrates thin-film pressure sensors into the soft suction cup design, emulating the tactile capabilities of an octopus's sucker to convey information about the contact environment in real time. Signals from sensors within soft materials exhibiting complex strain characteristics are processed and interpreted using the grey wolf optimizer-back propagation (GWO-BP) algorithm. The tissue stabilizer is endowed with the self-sensing capabilities of biomimetic octopus suckers, and real-time feedback on the adhesion state is provided. The embedding location of the thin-film pressure sensors is determined through foundational experiments with flexible substrates, standard spherical tests, and biological tissue trials. The newly fabricated suction cups undergo compression pull-off tests to collect data. The GWO-BP algorithm model accurately identifies and predicts the suction cup's adhesion force in real time, with an error rate below 0.97% and a mean prediction time of 0.0027 s. Integrating this technology offers a novel approach to intelligent monitoring and attachment assurance during cardiac surgeries. Hence, the probability of potential cardiac tissue damage is reduced, with future applications for integrating intelligent biomimetic adhesive soft robotics.
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