Inverted Pendulum Balance Control Based on Improved Active Disturbance Rejection Control

“…From another perspective, the works of (Liu et al, 2019) and (Chen et al, 2022) address an improvement in the nonlinear function of the non-linear ADRC formulation to better compensate for the discrepancies between the dynamics of a cart inverted pendulum and the integrator chain commonly assumed as the modified plant in the ADRC methods. The benefits of switching between the non-linear and linear ADRC are also presented for the aforementioned sub-actuated system in (Xian et al, 2020), and more recently, (Onen, 2023) studied the combination of the Extended State Observer (ESO) from ADRC with PID control and Sliding Mode Control (SMC) for this type of benchmark.…”

A model independent constrained predictive control for the Furuta Pendulum

“…From another perspective, the works of (Liu et al, 2019) and (Chen et al, 2022) address an improvement in the nonlinear function of the non-linear ADRC formulation to better compensate for the discrepancies between the dynamics of a cart inverted pendulum and the integrator chain commonly assumed as the modified plant in the ADRC methods. The benefits of switching between the non-linear and linear ADRC are also presented for the aforementioned sub-actuated system in (Xian et al, 2020), and more recently, (Onen, 2023) studied the combination of the Extended State Observer (ESO) from ADRC with PID control and Sliding Mode Control (SMC) for this type of benchmark.…”

A model independent constrained predictive control for the Furuta Pendulum

Underdractuated System Control Based on Improved Active Disturbance Rejection Control

Enhanced Nonlinear Current State Observer Based Virtual Current Sensors for Permanent Magnet Synchronous Motor Drives