Distilled neural state-dependent Riccati equation feedback controller for dynamic control of a cable-driven continuum robot
Mohammadamin Samadi Khoshkho, Zahra Samadikhoshkho, Michael Lipsett
- Year
- 2023
- Citations
- 9
- Access
- Open access
Abstract
This article presents a novel learning-based optimal control approach for dynamic control of continuum robots. Working and interacting with a confined and unstructured environment, nonlinear coupling, and dynamic uncertainty are only some of the difficulties that make developing and implementing a continuum robot controller challenging. Due to the complexity of the control design process, a number of researchers have used simplified kinematics in the controller design. The nonlinear optimal control technique presented here is based on the state-dependent Riccati equation and developed with consideration of the dynamics of the continuum robot. To address the high computational demand of the state-dependent Riccati equation controller, the distilled neural technique is adopted to facilitate the real-time controller implementation. The efficiency of the control scheme with different neural networks is demonstrated using simulation results.
Keywords
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