RobustH_∞feedback compensator design for an electromechanical actuator with time delay

Abstract: In this paper, a robust feedback compensator is designed for a real electromechanical actuator (EMA) and harmonic drive by introducing a novel procedure based on H ∞ control theory. Three main topics are treated; experimental identification, structured and unstructured uncertainties modeling, and robust control design for a real EMA harmonic drive system with time delay. The new approach verifies good trade-off between the powerful H ∞ controller and the unique features of feedback compensation, such as simpli… Show more

“…In this article the captured data, related to several test sets at different conditions for system identification, were used for model estimation and validation purposes. In [2], authors address three main topics; experimental identification, uncertainty modeling, and robust control design for a real EMA harmonic drive system. In this article, the linear model of the harmonic drive system is identified based on the test data.…”

A laboratory method for obtaining two degrees of freedom gyro-scopic stabilizer transfer function

“…In this article the captured data, related to several test sets at different conditions for system identification, were used for model estimation and validation purposes. In [2], authors address three main topics; experimental identification, uncertainty modeling, and robust control design for a real EMA harmonic drive system. In this article, the linear model of the harmonic drive system is identified based on the test data.…”

A laboratory method for obtaining two degrees of freedom gyro-scopic stabilizer transfer function