论文信息 - Research on Joint-Assisted Exoskeleton Control System of Lower Extremity in Active Spacesuit

Research on Joint-Assisted Exoskeleton Control System of Lower Extremity in Active Spacesuit

In order to meet the needs of future extravehicular activities, a concept of active spacesuit based on lower extremity joint-assisted exoskeleton technology is proposed. Firstly, we design the mechanical structure of exoskeleton, obtain the desired trajectory of lower extremity and the Preisach model of Active Spacesuit by measurement experiments, and establish the two-link dynamic model by Newton-Euler method. Then, we present the RBF neural network control based on computed torque method which control the linear dynamic model, and RBF neural network controller compensates the unknown uncertainties of system. Finally, the prototype of joint-assisted exoskeleton robot is showed and tested, and the validity of the control algorithm is verified by the joint simulation of MATLAB and ADAMS. The experimental results indict that RBF neural network can improve the control precision when compare with the traditional computed torque method.

[1] Gang Feng. A compensating scheme for robot tracking based on neural networks , 1995, Robotics Auton. Syst..

[2] P. B. Schmidt,et al. An investigation of space suit mobility with applications to EVA operations , 2001 .

[3] Shimin Wei,et al. The modeling and controller design of an angular servo robot based on the RBF neural network adaptive control , 2014, Proceedings of the 2014 International Conference on Advanced Mechatronic Systems.

[4] Rong Song,et al. The design and control of a 3DOF lower limb rehabilitation robot , 2016 .

[5] M. Spong,et al. Robot Modeling and Control , 2005 .

[6] A. Ingemar Skoog,et al. The Soviet/Russian spacesuit history , 2007 .

[7] Zhe Liang Sim. Development of a mechanical counter pressure Bio-Suit System for planetary exploration , 2006 .

[8] Hong Liu,et al. [A robot measurement system for spacesuit joint torque]. , 2003, Hang tian yi xue yu yi xue gong cheng = Space medicine & medical engineering.

[9] Isaak D. Mayergoyz,et al. The classical Preisach model of hysteresis and reversibility , 1991 .

[10] Jeffrey A. Hoffman,et al. Modeling and Testing of a Mechanical Counterpressure Bio-Suit System , 2007 .

[11] Roger N. Rovekamp,et al. X1: A Robotic Exoskeleton for In-Space Countermeasures and Dynamometry , 2013 .