Reduced cost of sensors and increased computing power is enabling the development and implementation of control systems that can simultaneously regulate multiple variables and handle conflicting objectives while maintaining stringent performance objectives. To make this a reality, practical analysis and design tools must be developed that allow the designer to trade-off conflicting objectives and guarantee performance in the presence of uncertain system dynamics, an uncertain environment, and over a wide range of operating conditions. As a first step towards this goal, we organize and streamline a promising robust control approach, Robust Linear Parameter Varying control, which integrates three fields of control theory: Integral Quadratic C...
Realistic models of physical systems are often nonlinear. Our objective is to synthesize controllers...
•We present a non-smooth method to synthesize a robust controller with good performance. • Performan...
Includes bibliographical references (leaf [6]).Supported by NASA. NAGW-1335Joel Douglas, Michael Ath...
Abstract — A robust synthesis algorithm is proposed for a class of uncertain linear parameter varyin...
In this paper, the problem of robust infinite horizon linear quadratic regulator (LQR) design is add...
The integral quadratic constraints (IQC) approach facilitates a systematic and efficient analysis of...
This paper addresses a robust control scheduling scheme for uncertain linear parameter-varying syste...
Abstract—A method is presented for synthesizing output estimators for a class of continuous time, un...
This paper revisits the problem of robust stability analysis and synthesis for linear parameter vary...
AbstractOur paper deals with robust gain-scheduled controller design for uncertain LPV systems which...
This paper develops a Linear Quadratic Regulator (LQR), which is robust to disturbance variability, ...
In the paper a generalized guaranteed cost output-feedback robust gain-scheduled PID controller synt...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
A general approach is presented to analyze the worst case input/output gain for an interconnection o...
This paper addresses the optimal control problem known as the linear quadratic regulator in the case...
Realistic models of physical systems are often nonlinear. Our objective is to synthesize controllers...
•We present a non-smooth method to synthesize a robust controller with good performance. • Performan...
Includes bibliographical references (leaf [6]).Supported by NASA. NAGW-1335Joel Douglas, Michael Ath...
Abstract — A robust synthesis algorithm is proposed for a class of uncertain linear parameter varyin...
In this paper, the problem of robust infinite horizon linear quadratic regulator (LQR) design is add...
The integral quadratic constraints (IQC) approach facilitates a systematic and efficient analysis of...
This paper addresses a robust control scheduling scheme for uncertain linear parameter-varying syste...
Abstract—A method is presented for synthesizing output estimators for a class of continuous time, un...
This paper revisits the problem of robust stability analysis and synthesis for linear parameter vary...
AbstractOur paper deals with robust gain-scheduled controller design for uncertain LPV systems which...
This paper develops a Linear Quadratic Regulator (LQR), which is robust to disturbance variability, ...
In the paper a generalized guaranteed cost output-feedback robust gain-scheduled PID controller synt...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
A general approach is presented to analyze the worst case input/output gain for an interconnection o...
This paper addresses the optimal control problem known as the linear quadratic regulator in the case...
Realistic models of physical systems are often nonlinear. Our objective is to synthesize controllers...
•We present a non-smooth method to synthesize a robust controller with good performance. • Performan...
Includes bibliographical references (leaf [6]).Supported by NASA. NAGW-1335Joel Douglas, Michael Ath...