Analysis of workspace of dual-arm robot in obstacled environment

Daixian Zhao; Kanfeng Gu; Wei Wang; Sijun Zhu

doi:10.1117/12.2659077

23 November 2022 Analysis of workspace of dual-arm robot in obstacled environment

Daixian Zhao, Kanfeng Gu, Wei Wang, Sijun Zhu

Proceedings Volume 12454, International Symposium on Robotics, Artificial Intelligence, and Information Engineering (RAIIE 2022); 1245417 (2022) https://doi.org/10.1117/12.2659077
Event: International Symposium on Robotics, Artificial Intelligence, and Information Engineering (RAIIE 2022), 2022, Hohhot, China

Abstract

The workspace of the dual-arm robot under the obstacle working environment is analyzed. An improved D-H coordinate system is established for the six-degree-of-freedom manipulator, and the coordinates of the end of each connecting rod are solved through the forward kinematic equation. Based on the Monte Carlo method, firstly analyze the ideal workspace without obstacles, further abstract the obstacles into a cylindrical envelope, and design a collision detection strategy to analyze the workspace that is closer to the actual work scene. The results show that the workspace analysis method using the collision detection strategy can delete a large number of collision points, which provides a basic optimization for the subsequent use of fast-expanding random tree and other manipulator path planning algorithms so that the algorithm avoids selecting invalid points during spatial sampling and reduces the number of collision points. Path search time.

Citation Download Citation

Daixian Zhao, Kanfeng Gu, Wei Wang, and Sijun Zhu "Analysis of workspace of dual-arm robot in obstacled environment", Proc. SPIE 12454, International Symposium on Robotics, Artificial Intelligence, and Information Engineering (RAIIE 2022), 1245417 (23 November 2022); https://doi.org/10.1117/12.2659077

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