November 2018, Volume 15, Issue 6, pp 941–949
Tianjiao Zheng, Yanhe Zhu, Zongwei Zhang, Sikai Zhao, Jie Chen, Jie Zhao
1. State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin, China
2. School of Mechanical Engineering and Automation, Northeastern University, Shenyang, China
Abstract
Lower-limb exoskeletons can provide paraplegics with the ability to restore gait function. In the community ambulation, the user would frequently meet different floors, doorsills, and other obstacles. Therefore, parametric gait generation is a significant issue for this kind of exoskeletons. In this paper, a parametric gait online generation approach is proposed, which combines a parametric gait control method with a torque compensation control strategy, based on the state machine. In the torque compensation control, the reference trajectories of joint positions are obtained through compensating gravity, inertia, and friction, which is intent on the natural and well-directed source data. Based on the reference trajectories, the parametric gait control method is established, in which the gait can be controlled via three parameters: velocity, step-length, and step-height. Two test cases are performed on three healthy subjects. The results demonstrate that the parametric gait can be online generated smoothly and correctly, meanwhile every variable step can be triggered as users expect. The effectiveness and practicability of the gait generation approach proposed in this paper are validated. In addition, this research is the foundation of autonomous gait planning.
Keywords
Exoskeleton parametric gait gait online generation paraplegic bionic design
Full text is available at :https://link.springer.com/article/10.1007/s42235-018-0082-0