AbstractSystems composed by a linear dynamical part feedback interconnected with a static nonlinearity are traditionally controlled by canceling the nonlinearity through a first feedback loop, and then designing a linear controller for the remaining linear dynamics. However, this procedure may provide unsatisfactory performance, and even lead to instability, in presence of uncertainty. In this paper we investigate the interplay between the robustness of the linear controller and the quality of the approximation of the nonlinearity, providing sufficient conditions for closed loop stability
A separation principle for a class of nonlinear systems inspired by the techniques of feedback linea...
We provide theoretical guarantees for recursive feasibility and practical exponential stability of t...
Feedback linearization technique is applied to design robust controllers for a class of nonlinear un...
AbstractSystems composed by a linear dynamical part feedback interconnected with a static nonlineari...
Feedback linearization provides an effective means of designing nonlinear control systems. This meth...
The feedback linearization approach is a control method which employs feedback to stabilize systems ...
Feedback Linearisation (FL) is a nonlinear control technique that has gained a lot of attention in t...
In this paper, we study the problem of absolute stabilization under dynamic output feedback for Lur’...
The paper considers key limitation of the feedback linearisation controller designed for nonlinear s...
When dealing with linear systems feedback interconnected with memoryless nonlinearities, a natural c...
This paper deals with the class of nonlinear systems described by the equation M(q(t))q(t) = f(t) - ...
In this thesis, investigation of robust stability properties for certain nonlinear systems via exact...
Feedback linearization technique is applied to design robust controllers for a class of nonlinear un...
In this paper we study the problem of controlling uncertain nonlinear systems. The uncertainty is co...
This work follows the global input/output linearization approach for the design of control systems f...
A separation principle for a class of nonlinear systems inspired by the techniques of feedback linea...
We provide theoretical guarantees for recursive feasibility and practical exponential stability of t...
Feedback linearization technique is applied to design robust controllers for a class of nonlinear un...
AbstractSystems composed by a linear dynamical part feedback interconnected with a static nonlineari...
Feedback linearization provides an effective means of designing nonlinear control systems. This meth...
The feedback linearization approach is a control method which employs feedback to stabilize systems ...
Feedback Linearisation (FL) is a nonlinear control technique that has gained a lot of attention in t...
In this paper, we study the problem of absolute stabilization under dynamic output feedback for Lur’...
The paper considers key limitation of the feedback linearisation controller designed for nonlinear s...
When dealing with linear systems feedback interconnected with memoryless nonlinearities, a natural c...
This paper deals with the class of nonlinear systems described by the equation M(q(t))q(t) = f(t) - ...
In this thesis, investigation of robust stability properties for certain nonlinear systems via exact...
Feedback linearization technique is applied to design robust controllers for a class of nonlinear un...
In this paper we study the problem of controlling uncertain nonlinear systems. The uncertainty is co...
This work follows the global input/output linearization approach for the design of control systems f...
A separation principle for a class of nonlinear systems inspired by the techniques of feedback linea...
We provide theoretical guarantees for recursive feasibility and practical exponential stability of t...
Feedback linearization technique is applied to design robust controllers for a class of nonlinear un...