首页 /研究 /Controlling of Pneumatic Muscle Actuator Systems by Parallel Structure of Neural Network and Proportional Controllers (PNNP)
HRI

Controlling of Pneumatic Muscle Actuator Systems by Parallel Structure of Neural Network and Proportional Controllers (PNNP)

Alaa Al-Ibadi, Samia Nefti‐Meziani, Steve Davis

发表年份
2020
引用次数
15

摘要

This article proposed a novel controller structure to track the non-linear behavior of the pneumatic muscle actuator (PMA), such as the elongation for the extensor actuator and bending for the bending PMA. The proposed controller consists of a neural network (NN) controller laid in parallel with the proportional controller (P). The parallel neural network proportional (PNNP) controllers provide a high level of precision and fast-tracking control system. The PNNP has been applied to control the length of the single extensor PMA and the bending angle of the single self-bending contraction actuator (SBCA) at different load values. For further validation, the PNNP has been applied to control a human-robot shared control system. The results show the efficiency of the proposed controller structure.

关键词

ActuatorControl theory (sociology)Artificial neural networkArtificial muscleComputer scienceController (irrigation)BendingControl systemNonlinear systemTracking (education)

相关论文

查看 HRI 分类全部论文