Nonlinear modelling and analysis of stable behaviour of robot gait control system based on image processing technology Online publication date: Fri, 05-Apr-2024
by Jin Wang; Hui Lin; Wenbing Yang
International Journal of Computational Intelligence Studies (IJCISTUDIES), Vol. 12, No. 3/4, 2023
Abstract: Walking stability is an important index to measure the walking performance of robot, and is the key to realise its wide application. However, the traditional gait control system has low control accuracy and long control time. Therefore, aiming at the above problems, a nonlinear modelling and analysis method of stable behaviour of robot gait control system based on image processing technology is studied and designed. The robot gait control system is composed of main control system hardware, wireless control system, robot debugging software and image pre-processing module. The hardware design of the main control system includes the DSP minimum system and the steering gear control board. The image pre-processing module pre-processes the image collected by the CCD camera to remove the noise in the image. Finally, the speed of the robot is controlled by visual servo control method, and a nonlinear sliding mode control closed-loop system of the robot is constructed. The simulation results show that the designed method has the highest accuracy of 100%, and the longest time is only 27.96 s. It has high control accuracy and control efficiency, which provides a method reference for further realising the optimal control of the robot.
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