Deep-Learning-Assisted Underwater 3D Tactile Tensegrity  被引量:2

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作  者:Peng Xu Jiaxi Zheng Jianhua Liu Xiangyu Liu Xinyu Wang Siyuan Wang Tangzhen Guan Xianping Fu Minyi Xu Guangming Xie Zhong Lin Wang 

机构地区:[1]Dalian Key Laboratory of Marine Micro/Nano Energy and Self-powered Systems,Marine Engineering College,Dalian Maritime University,Dalian 116026,China [2]School of Information Science and Technology,Dalian Maritime University,Dalian 116026,China [3]Intelligent Biomimetic Design Lab,College of Engineering,Peking University,Beijing 100871,China [4]Beijing Institute of Nanoenergy and Nanosystems,Chinese Academy of Sciences,Beijing 100871,China [5]School of Materials Science and Engineering,Georgia Institute of Technology,Atlanta,GA 30332-0245,USA

出  处:《Research》2023年第3期683-695,共13页研究(英文)

基  金:the National Key R&D Project from the Minister of Science and Technology(2021YFA1201604);the Dalian Outstanding Young Scientific and Technological Talents Project(2021RJ11);the National Natural Science Foundation of China(51879022);the Beijing Natural Science Foundation(no.4192026)。

摘  要:The growth of underwater robotic applications in ocean exploration and research has created an urgent need for effective tactile sensing.Here,we propose an underwater 3-dimensional tactile tensegrity(U3DTT)based on soft self-powered triboelectric nanogenerators and deep-learning-assisted data analytics.This device can measure and distinguish the magnitude,location,and orientation of perturbations in real time from both flow field and interaction with obstacles and provide collision protection for underwater vehicles operation.It is enabled by the structure that mimics terrestrial animals’musculoskeletal systems composed of both stiff bones and stretchable muscles.Moreover,when successfully integrated with underwater vehicles,the U3DTT shows advantages of multiple degrees of freedom in its shape modes,an ultrahigh sensitivity,and fast response times with a low cost and conformability.The real-time 3-dimensional pose of the U3DTT has been predicted with an average root-mean-square error of 0.76 in a water pool,indicating that this developed U3DTT is a promising technology in vehicles with tactile feedback.

关 键 词:UNDERWATER TILE STIFF 

分 类 号:O42[理学—声学]

 

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