Robust input-output decoupling via static measurement output feedback
Date
1999Keyword
Abstract
In this paper the problem of robust input-output decoupling for linear systems with nonlinear uncertain structure (NLUS), via an independent from the uncertainties static measurement output feedback law, is studied. The necessary and sufficient conditions for the problem to have a solution, are established. The general analytical expressions of the feedback matrices and the decoupled closed loop system are derived. The problem of robust input - output decoupling with simultaneous Hurwitz invariability, is also studied.
Collections
Related items
Showing items related by title, author, creator and subject.
-
Robust disturbance rejection with simultaneous robust input-output decoupling
Koumboulis, F. N.; Skarpetis, M. G. (1997)The problem of robust disturbance rejection with simultaneous robust input-output decoupling of linear systems with nonlinear uncertain structure is solved. The controller is static and independent of the uncertainties. ... -
Robust triangular decoupling with simultaneous robust disturbance rejection
Koumboulis, F. N.; Skarpetis, M. G. (2001)For the case of a linear time invariant system with nonlinear uncertain structure the problem of robust triangular decoupling with simultaneous robust disturbance rejection (RTDRDR) is studied. The necessary and sufficient ... -
Robust reliability-based aerodynamic shape optimization
Papadimitriou, D. I.; Papadimitriou, C. (2014)This paper presents a methodology for robust and reliable shape optimization of aerodynamic bodies under uncertainties. The mean value and standard deviation of the drag coefficient objective function with respect to flow ...