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

Alaa Al-Ibadi; Samia Nefti-Meziani; Steve Davis

doi:10.3389/frobt.2020.00115

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

Front Robot AI. 2020 Oct 5:7:115. doi: 10.3389/frobt.2020.00115. eCollection 2020.

Authors

Alaa Al-Ibadi^{1

2}, Samia Nefti-Meziani¹, Steve Davis¹

Affiliations

¹ School of Computing, Science and Engineering, University of Salford, Salford, United Kingdom.
² Computer Engineering Department, Engineering College, University of Basrah, Basrah, Iraq.

Abstract

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.

Keywords: P controller; PMA; controller system; human-robot shared controller; neural network.