Saixuan Chen scite author profile

Saixuan Chen

3Publications

67Citation Statements Received

64Citation Statements Given

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Affiliations

Shanghai University of Engineering Sciences, University of Science and Technology of China, Jiangsu Industry Technology Research Institute

Publications

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A Precise Positioning Method for a Puncture Robot Based on a PSO-Optimized BP Neural Network Algorithm

et al. 2017

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The problem of inverse kinematics is fundamental in robot control. Many traditional inverse kinematics solutions, such as geometry, iteration, and algebraic methods, are inadequate in high-speed solutions and accurate positioning. In recent years, the problem of robot inverse kinematics based on neural networks has received extensive attention, but its precision control is convenient and needs to be improved. This paper studies a particle swarm optimization (PSO) back propagation (BP) neural network algorithm to solve the inverse kinematics problem of a UR3 robot based on six degrees of freedom, overcoming some disadvantages of BP neural networks. The BP neural network improves the convergence precision, convergence speed, and generalization ability. The results show that the position error is solved by the research method with respect to the UR3 robot inverse kinematics with the joint angle less than 0.1 degrees and the output end tool less than 0.1 mm, achieving the required positioning for medical puncture surgery, which demands precise positioning of the robot to less than 1 mm. Aiming at the precise application of the puncturing robot, the preliminary experiment has been conducted and the preliminary results have been obtained, which lays the foundation for the popularization of the robot in the medical field.

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Enhanced heat transfer and flow analysis in a backward-facing step using a porous baffle

Cui

Zhai

et al. 2020

J Therm Anal Calorim

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A universal algorithm for sensorless collision detection of robot actuator faults

Chen

Luo

2018

Advances in Mechanical Engineering

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When a robot is working properly, it is possible to collide with people or objects entering its working space. This research is different than usual control algorithm. It proposes a universal algorithm for sensorless collision detection of robot actuator faults to enhance the security of the robot. On the basis of the dynamic model, a classical friction model to ensure the accuracy of the whole dynamic model is introduced. This collision detection algorithm can conduct without any external sensors or acceleration and realize the real-time detection just needs to measure the motor current and the location information from the encoder of the robot joint. The value of external torque t ext was used to compare with the threshold to detect the collision. After using the proposed collision detection method, the two rotational (2R) planar manipulators can detect the slight collision reliably. The experimental results and performance comparisons show that this sensorless collision detection algorithm is simple and effective. It can be promoted to any other type of robot arm with more degrees of freedom.

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Saixuan Chen

A Precise Positioning Method for a Puncture Robot Based on a PSO-Optimized BP Neural Network Algorithm

Enhanced heat transfer and flow analysis in a backward-facing step using a porous baffle

A universal algorithm for sensorless collision detection of robot actuator faults

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