Robust controllability of interval fractional order linear time invariant stochastic systems

Abstract: We deal with the robust controllability problem of the fractional order linear time invariant (FO-LTI) stochastic systems with interval coefficients. We present a necessary and sufficient condition for the controllability problem for the case when there is no interval uncertainty. Based on the concept of linear independency of interval vectors, we formulate the approach to check the robust controllability of interval FO-LTI stochastic systems by employing some simple but very effective sufficient condition for… Show more

“…Stability is one of the most fundamental and interesting problem in control theory. So far, there have been some advances in control theory of fractional dynamical systems for stability questions such as robust stability [10][11][12], Mittag-Leffler stability [13], bounded-input bounded-output stability [14,15], uniform stability [16], finite-time stability [17], and robust controllability [18]. However, it should be noted that it is difficult to evaluate the stability for fractionalorder dynamic systems by simply examining its characteristic equation either by finding its dominant roots or by using other algebraic methods.…”

Uniform Stability of a Class of Fractional-Order Nonautonomous Systems with Multiple Time Delays

“…Stability is one of the most fundamental and interesting problem in control theory. So far, there have been some advances in control theory of fractional dynamical systems for stability questions such as robust stability [10][11][12], Mittag-Leffler stability [13], bounded-input bounded-output stability [14,15], uniform stability [16], finite-time stability [17], and robust controllability [18]. However, it should be noted that it is difficult to evaluate the stability for fractionalorder dynamic systems by simply examining its characteristic equation either by finding its dominant roots or by using other algebraic methods.…”

Uniform Stability of a Class of Fractional-Order Nonautonomous Systems with Multiple Time Delays

“…Several researchers on automatic control have proposed control algorithms, such as, PID controller [4] and Adaptive controller [5], etc. meanwhile, both stabilization [6] and controllability [7] are also concerned.…”

The Fractional-Order Control Method of Dynamic Elastoplastic Responses of Benchmark Buildings