Zhenzi Song scite author profile

Zhenzi Song

3Publications

6Citation Statements Received

32Citation Statements Given

How they've been cited

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Affiliations

Beijing Institute of Technology, Beijing Advanced Sciences and Innovation Center, Ministry of Education of the People's Republic of China

Publications

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Prototype Design and Performance Tests of Beijing Astronaut Robot

Sun

Jiang

et al. 2018

Applied Sciences

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Featured Application: A novel chameleon-like astronaut robot that is designed to assist, or even substitute, an astronaut in a space station to complete dangerous and prolonged work.Abstract: This paper proposes a novel chameleon-like astronaut robot that is designed to assist, or even substitute, a human astronauts in a space station to complete dangerous and prolonged work, such as maintenance of solar panels, and so on. The robot can move outside the space station freely via the hundreds of aluminum handrails, which are provided to help astronauts move. The robot weighs 30 kilograms, and consists of a torso, three identical 4-degree of freedom (DOF) arms, three end effectors, and three monocular vision system on each end effector. Via multi-arm associated motion, the robot can realize three kinds of motion modes: walking, rolling, and sliding. Numerous experiments have been conducted in a simulation environment and a ground verification platform. Experimental results reveal that this robot has excellent motion performance.

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A Hierarchical Safety Control Strategy for Exoskeleton Robot Based on Maximum Correntropy Kalman Filter and Bounding Box

Yang

Song

et al. 2019

Robotica

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SummaryExoskeleton robots have been widely used in many fields at present. When wearing the exoskeleton to operate, the wearer may be unconscious of the position of exoskeleton or affected by the surrounding environment, causing collision between two arms of exoskeleton or between arms and environment. The collision may result in the exoskeleton destroyed or even the wearer injured. This paper proposes a hierarchical safety control strategy for exoskeleton robots based on maximum correntropy Kalman filter and bounding box to ensure safe operation. Accurate joint angle prediction can be obtained by filtering out non-Gaussian impulsive noise using maximum correntropy criterion as evaluation criterion. Relative position relationship of the arms can be derived based on bounding box to realize hierarchical safe control. Enough experiments have been carried out, and the results validated the feasibility of the proposed method.

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Solving Inverse Kinematics of Industrial Robot Based on BP Neural Network

Song

Jiang

et al. 2017

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Zhenzi Song

Prototype Design and Performance Tests of Beijing Astronaut Robot

A Hierarchical Safety Control Strategy for Exoskeleton Robot Based on Maximum Correntropy Kalman Filter and Bounding Box

Solving Inverse Kinematics of Industrial Robot Based on BP Neural Network

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