Litcius/Paper detail

Compliant Control of Flexible Joint by Dual-Disturbance Observer and Predictive Feedforward

Hongyu Wan, Silu Chen, Chi Zhang, Chin-Yin Chen, Guilin Yang

2023IEEE/ASME Transactions on Mechatronics17 citationsDOI

Abstract

The compliant control of a flexible joint relies on the accurate external torque information and effective internal disturbance compensation. To achieve this, most of the prior works use a built-in torque sensor and a lumped disturbance observer based on a single encoder. This increases the weight and cost of the system. In this article, a novel dual-disturbance observer (DDOB) based on the encoder feedbacks from both the motor and link sides is proposed so that the friction and external torque are estimated and compensated separately without the torque sensor. Thereby, a feedforward–feedback–DDOB composite scheme is formed for position control. The modified reference sensitivity of this scheme suggests that better tracking accuracy and disturbance rejection ability are achieved. In addition, the estimated external torque is used to alternate the reference trajectory with the given admittance model. To ensure that the feedforward control is realizable, the prediction of the alternated trajectory is done by the online fitting of a polynomial. The output turbulence caused by prediction errors is effectively suppressed by a single deadbeat compensator with the most ancient prediction in memory, while other predictions are weighted by the time-varying ratios. Simulations and real-time experiments are performed to demonstrate the practical appeal of the proposed method.

Topics & Concepts

Control theory (sociology)Feed forwardTorqueComputer scienceEncoderTrajectoryCompensation (psychology)Observer (physics)Control engineeringEngineeringControl (management)Artificial intelligencePhysicsPsychoanalysisThermodynamicsAstronomyPsychologyQuantum mechanicsOperating systemPiezoelectric Actuators and ControlProsthetics and Rehabilitation RoboticsIterative Learning Control Systems