The paper presents an active suspension experiment system with pneumatic artificial muscle as actuators according to the 1/4 suspension mechanism model.
以气动肌肉作为新型执行器,创建基于1/4悬架模型的汽车主动悬架系统。
A two-folded sliding modes approach of pneumatic muscle actuator (PMA) position control system was proposed, and the controller was designed by using Lyapunov stability theory.
针对气动人工肌肉位置控制系统,提出了两层滑模的变结构鲁棒控制策略,控制器的推导基于李亚普诺夫稳定性理论。
Using flexible actuator Pneumatic Muscle actuator as a new actuator to construct a manipulator system and a platform of multiple degrees of freedom is a new research field of gas dynamics.
用柔性执行器气动人工肌肉为新型执行器构建气动人工肌肉机械手系统,特别是多自由度的平台,是气动方向一项新的研究内容。
An experimental study of the pneumatic muscle control system was carried out based on Variable Structure control (VSC), and its control characteristics were analyzed.
采用变结构控制对单根气动人工肌肉系统进行了实验研究,分析了气动人工肌肉系统的控制特性。
An experimental study of the pneumatic muscle control system was carried out based on Variable Structure control (VSC), and its control characteristics were analyzed.
采用变结构控制对单根气动人工肌肉系统进行了实验研究,分析了气动人工肌肉系统的控制特性。
应用推荐