Abstract
The Sliding Mode Control (SMC) has been among powerful control techniques increasingly. Much attention is paid to both theoretical and practical aspects of disciplines due to their distinctive characteristics such as insensitivity to bounded matched uncertainties, reduction of the order of sliding equations of motion, decoupling mechanical systems design. In the current study, two-link robot performance in the Classical SMC is enhanced via Adaptive Sliding Mode Controller (ASMC) despite uncertainty, external disturbance, and coulomb friction. The key idea is abstracted as follows: switching gains are depressed to the low allowable values, resulting in decreased chattering motion and control's efforts of the two-link robot system. Un-known uncertainty bounded and reducing switching gains can be considered major advantages of ASMC leading to outperform ASMC upon CSMC. Simulink MATLAB 2019a was used to obtain the simulation outcomes. The outcomes have shown that both methodologies had good tracking performance to the desired position and made the system asymptotically stable through the steady-state errors investigate approaching zero. ASMC is better than CSMC illustrated by minimizing gains values, control efforts, and chattering for each link.
Highlights
Robotics is a relatively new field in digital technology, breaking the limits in conventional engineering
Comparative research is completed, and the results show that the control of sliding mode exceeds the control of PID with a minimal tracking error. (Al-Samarraie and Salih, 2017), proposed to design Adaptive Sliding Mode Controller (ASMC) for a two-link robot with unknown dead-zone and LuGre friction
This study is constructed to good tracking between position and desired position, so the chattering is still appearing in the simulation results caused by signum function in Sliding Mode Control (SMC). (Baek and Kwon, 2020) proposed to built SS-ASMC for a two-link robot to reduce the error in tracking the desired position in the past study (Baek et al, 2016)
Summary
Robotics is a relatively new field in digital technology, breaking the limits in conventional engineering. The proposed method reduces the switching gain and control effort to low possible value to give good performance tracking for the desired position. (Ibrahim and Sharkawy, 2018), proposed to build SMC and Adaptive PID controller for a two-link robot manipulator. (Baek and Kwon, 2020) proposed to built SS-ASMC for a two-link robot to reduce the error in tracking the desired position in the past study (Baek et al, 2016). The current work discusses applying full phases of the sliding mode of CSMC and ASMC for a high nonlinear two-link robot with the presence of disturbance and coulomb friction and uncertainty of parameters. Good tracking for the desired position, and attenuate the switching gains that reduce the oscillation motion in the torque actions are achieved. Δ1 and δ2 Are the terminology for Joint 1 and 2 perturbations, respectively
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