Neural Network-Based Optimal Control of a Lower-limb Exoskeleton Robot

2021 6th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM) Pub Date : 2021-07-03 DOI:10.1109/ICARM52023.2021.9536198
P. Huang, Wang Yuan, Qinjian Li, Ying Feng
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Abstract

In this paper, an optimal controller is designed and applied to the lower-limb exoskeleton robot, which could improve the robustness under nonlinear perturbations. In order to derive the optimal controller, we build the modeling of the exoskeleton robot to simplify the structure of the robot, and then we define a cost function, because the cost function is difficult to solve, so we adopt the function approximation method to approximate its optimal value, and the optimal control is obtained by solving the Hamiltonian equation. Finally, simulation studies are carried out. These simulation studies verify that the controller has a good performance even in the presence of disturbance.
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基于神经网络的下肢外骨骼机器人最优控制
设计并应用于下肢外骨骼机器人的最优控制器,提高了机器人在非线性扰动下的鲁棒性。为了推导出最优控制器,我们建立了外骨骼机器人的模型,简化了机器人的结构,然后定义了一个成本函数,由于成本函数很难求解,所以我们采用函数逼近法来逼近其最优值,并通过求解哈密顿方程得到最优控制。最后,进行了仿真研究。这些仿真研究验证了该控制器在存在干扰的情况下仍具有良好的性能。
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2021 6th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM)
2021 6th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM)
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