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Manipulation Planning for Cable Shape Control
- Subjects: Automation & Control Systems
- |
- Contributors:
- Karam Almaghout ,
- Alexandr Klimchik
- robotic manipulation
- shape control
- optimization control problem
- simulation
- deformable linear objects
Video Introduction
This video is adapted from 10.3390/robotics13010018
The control of deformable linear objects (DLOs) such as cables presents a significant challenge for robotic systems due to their unpredictable behavior during manipulation. A discrete point model is utilized for the cable, and a path generation algorithm is developed to define intermediate cable shapes, facilitating the transformation of the cable into the desired profile through a formulated optimization problem.
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Almaghout, K.; Klimchik, A. Manipulation Planning for Cable Shape Control. Encyclopedia. Available online: https://encyclopedia.pub/video/video_detail/1112 (accessed on 05 December 2025).
Almaghout K, Klimchik A. Manipulation Planning for Cable Shape Control. Encyclopedia. Available at: https://encyclopedia.pub/video/video_detail/1112. Accessed December 05, 2025.
Almaghout, Karam, Alexandr Klimchik. "Manipulation Planning for Cable Shape Control" Encyclopedia, https://encyclopedia.pub/video/video_detail/1112 (accessed December 05, 2025).
Almaghout, K., & Klimchik, A. (2024, February 23). Manipulation Planning for Cable Shape Control. In Encyclopedia. https://encyclopedia.pub/video/video_detail/1112
Almaghout, Karam and Alexandr Klimchik. "Manipulation Planning for Cable Shape Control." Encyclopedia. Web. 23 February, 2024.
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