Abstract
Deep sea fishing ground (DSFG) is a large-scale fish farming equipment that allows the full use of marine environment to meet human needs for food quantity and quality. To maintain the good aquaculture environment of the DSFG, regular cleaning of its side nets is necessary. This paper discusses the application of the four-cable parallel manipulator in performing the cleaning task. The impact of buoyancy on the workspace of the cable parallel manipulator is studied, which reveals that reasonable use of buoyancy can improve the reachable workspace. The stiffness anisotropy and stiffness average indices are adopted to analyze the stiffness performance. Then, the preliminary workspace of the four-cable parallel manipulator is determined, and covers 88.8% of the entire side net of the DSFG and meet the coverage requirement of 85%. Optimization of the scale and end effector rotation will be carried out in the future, which can further improve the coverage.
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References
Kang Sun, Lidan Li. Analysis on the Effect and Time-Space Differences of China’s Marine Fisheries Transformation. Economic review, 2018, 7(4):72-83.
Yaqing Zheng, Qi Lin, Xiongwei Liu, et al. On Wire-driven Parallel Suspension Systems for Static and Dynamic Derivatives of Aircraft in Low-speed Wind Tunnels. Acta Aeronautica et Astronautica Sinica, 2009, 30(8):1549-1554.
Yongde Zhang, Jingang Jiang, Shu Zhang, et al. Development and experimental study on glass-curtain wall cleaning robot driven by flexible rope. Chinese Journal of Scientific Instrument, 2013, 34(3):494-501.
Zhiyuan Liu, Lian Chen, Zhufeng Shao, et al. Terminal Accuracy of the Feed Support System in FAST. Journal of Mechanical Engineering, 2017, 53(17): 50-59.
MING A, HIGUCHI T. Study on multiple degree-of-freedom positioning manipulator using wires (part 1) -concept, design and control. International Journal of Japan Social Engineering, 1994, 28(2):131-138.
Albus J S, Bostelman R V, Dagalakis N. The NIST ROBOCRANE. Journal of RoboticsSystem, 1992, 10(5): 709-724.
Gouttefarde M, Gosselin C M. Analysis of the wrench-closure workspace of planar parallel cable-driven manipulators. IEEE Transactions on Robotics, 2006, 22(3): 434-445.
Bosscher P, Riechel A T, Ebert-Uphoff I. Wrench-feasible workspace generation for cable-driven robots. IEEE Transactions on Robotics, 2006, 22(5): 890-902.
Pham C B, Yeo S H, Yang G, et al. Force-closure workspace analysis of cable-driven parallel manipulators. Manipulator and Machine Theory, 2006, 41(1): 53-69.
Verhoeven, R. Analysis of the workspace of Tendon-based Stewart platforms. Doctoral dissertation. University Duisburg-Essen, 2004.
Xin Liu, Yuanying Qiu, Ying Sheng. Stiffness Enhancement and Motion Control of a 6-DOF Wire-driven Parallel Manipulator with Redundant Actuations for Wind Tunnels. Acta Aeronautica et Astronautica Sinica, 2009, 30(6):1156-1164.
Zhiwei Cui, Xiaoqiang Tang, Senhao Hou, etc. Research on Controllable Stiffness of Redundant Cable-Driven Parallel Robots. IEEE/ASME Transactions on Mechatronics, 2018, 23(5):2390-2401.
Hui Li, Wenbai Zhu. Static Stiffness Analysis of Flexible-cable-driven Parallel Mechanism. Journal of Mechanical Engineering, 2010, 46(3):8-16.
Lewei Tang. Research and Experiments on Dynamical Trajectory Planning of Cable-driven Parallel Manipulators. Doctoral dissertation. Tsinghua University, 2015.
Weifang Wang. Research on Redundantly Restrained Cable-driven Parallel Manipulator for Simulating Force. Doctoral dissertation. Tsinghua University, 2016.
Xin Liu, Yuanying Qiu, Ying Sheng. Analysis on the Static Stiffness of Wire-driven Parallel Manipulators. Journal of Mechanical Engineering, 2011, 47(13):35-43.
Xiaoqiang Tang, Lewei Tang, Jinsong Wang, et al. Workspace quality analysis and application for a completely restrained 3-Dof planar cable-driven parallel manipulator. Journal of Mechanical Science and Technology, 2013, 27(8):2391-2399.
Yaqing Zheng, Xiaoling Jiang. Static Stiffness Analysis and Optimization of Four-cable-driven Under-restrained Parallel Manipulator with 6 DOFs Based on Least Square-support Vector Machine. Journal of Mechanical Engineering, 2012, 48(13): 49-55.
Xiaoqiang Tang, Weifang Wang, Lewei Tang. A geometrical workspace calculation method for cable-driven parallel manipulators on minimum tension condition. Advanced Robotics, 2016, 30(16):1061-1071.
Trevisani A. Planning of dynamically feasible trajectories for translational, planar, and underconstrained cable-driven robots. Journal of Systems Science and Complexity, 2013, 26(5): 695-717.
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Wang, L., Li, H., Shao, Z., Zhang, Z., Peng, F. (2019). Workspace Analysis of Cable Parallel Manipulator for Side Net Cleaning of Deep Sea Fishing Ground. In: Pott, A., Bruckmann, T. (eds) Cable-Driven Parallel Robots. CableCon 2019. Mechanisms and Machine Science, vol 74. Springer, Cham. https://doi.org/10.1007/978-3-030-20751-9_13
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DOI: https://doi.org/10.1007/978-3-030-20751-9_13
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