Abstract—A bang-bang controller is proposed which is able to ensure reference signal tracking with prespecified time-varying error bounds (the funnel) for nonlinear systems with relative degree one or two. For the design of the controller only the knowledge of the relative degree is needed. The controller is guaranteed to work when certain feasibility assumptions are fulfilled, which are explicitly given in the main results. Linear systems with relative degree one or two are feasible if the system is minimum phase and the control values are large enough. I
The dissertation focuses on output feedback control for nonlinear relative degree one and relative d...
This paper proposes a relatively simple adaptive controller for nonlinear systems with higher relati...
Funnel control is a strikingly simple control technique to ensure model free practical tracking for ...
Abstract—A bang-bang controller is proposed which is able to ensure reference signal tracking with p...
We adjust the newly developed bang-bang funnel controller such that it is more applicable for real w...
The dilemma between transient behavior and accuracy in tracking control arises in both theoretical r...
PublishedJournal ArticleTracking of reference signals yref (·) by the output y(·) of linear (as well...
We study tracking control for nonlinear systems with known relative degree and stable internal dynam...
bang-bang funnel controller for uncertain nonlinear systems with arbitrary relative degre
In many tracking control problems, pre-specified bounds for the evolution of the tracking error shou...
Tracking of reference signals is addressed in the context of a class of nonlinear controlled systems...
Tracking of a reference signal (assumed bounded with essentially bounded deriva-tive) is considered ...
The dissertation focuses on output feedback control for nonlinear relative degree one and relative d...
This paper proposes a relatively simple adaptive controller for nonlinear systems with higher relati...
Funnel control is a strikingly simple control technique to ensure model free practical tracking for ...
Abstract—A bang-bang controller is proposed which is able to ensure reference signal tracking with p...
We adjust the newly developed bang-bang funnel controller such that it is more applicable for real w...
The dilemma between transient behavior and accuracy in tracking control arises in both theoretical r...
PublishedJournal ArticleTracking of reference signals yref (·) by the output y(·) of linear (as well...
We study tracking control for nonlinear systems with known relative degree and stable internal dynam...
bang-bang funnel controller for uncertain nonlinear systems with arbitrary relative degre
In many tracking control problems, pre-specified bounds for the evolution of the tracking error shou...
Tracking of reference signals is addressed in the context of a class of nonlinear controlled systems...
Tracking of a reference signal (assumed bounded with essentially bounded deriva-tive) is considered ...
The dissertation focuses on output feedback control for nonlinear relative degree one and relative d...
This paper proposes a relatively simple adaptive controller for nonlinear systems with higher relati...
Funnel control is a strikingly simple control technique to ensure model free practical tracking for ...