Robust control system analysis and design is based on an uncertainty description, called a linear fractional transformation (LFT), which separates the uncertain (or varying) part of the system from the nominal system. These models are also useful in the design of gain-scheduled control systems based on Linear Parameter Varying (LPV) methods. Low-order LFT models are difficult to form for problems involving nonlinear parameter variations. This paper presents a numerical computational method for constructing an LFT model from a given LPV model. The method is developed for multivariate polynomial problems, and uses simple matrix computations to obtain an exact low-order LFT representation of the given LPV system without the use of model reduct...
This paper introduces a novel method to control linear parameter varying (LPV) systems by employing ...
Based on symbolic and numeric manipulations, a model simplification technique is proposed in this pa...
In this thesis, methods for rapidly developing LPV/LFT models for aerospace applications are propose...
Robust control system analysis and design is based on an uncertainty description, called a linear fr...
The paper presents a general approach to approximate a nonlinear system by a linear fractional repre...
Many physical dynamical systems can be described by differential equations depending on parameters,...
We present a general approach to generate a linear parametric state-space model, which approximates ...
This brief proposes a new linear fractional transformation (LFT) modeling approach for uncertain lin...
Linear Fractional Transformations (LFTs) are objects of study for robust and Linear Parameter Varyin...
The paper describes some recent enhancements of symbolic factorization techniques for multivariate L...
The paper describes some recent enhancements of symbolic factorization techniques for multivariate L...
ABSTRACT: This paper presents a procedure for parametric uncertainty modeling of a highly nonlinear ...
Commonly, controllers for Linear Parameter- Varying (LPV) systems are designed in continuous-time us...
This paper proposes a new Linear Fractional Transformation (LFT) modeling approach for uncertain Lin...
The emphasis of this thesis is on the development of systematic methods for reducing the size and co...
This paper introduces a novel method to control linear parameter varying (LPV) systems by employing ...
Based on symbolic and numeric manipulations, a model simplification technique is proposed in this pa...
In this thesis, methods for rapidly developing LPV/LFT models for aerospace applications are propose...
Robust control system analysis and design is based on an uncertainty description, called a linear fr...
The paper presents a general approach to approximate a nonlinear system by a linear fractional repre...
Many physical dynamical systems can be described by differential equations depending on parameters,...
We present a general approach to generate a linear parametric state-space model, which approximates ...
This brief proposes a new linear fractional transformation (LFT) modeling approach for uncertain lin...
Linear Fractional Transformations (LFTs) are objects of study for robust and Linear Parameter Varyin...
The paper describes some recent enhancements of symbolic factorization techniques for multivariate L...
The paper describes some recent enhancements of symbolic factorization techniques for multivariate L...
ABSTRACT: This paper presents a procedure for parametric uncertainty modeling of a highly nonlinear ...
Commonly, controllers for Linear Parameter- Varying (LPV) systems are designed in continuous-time us...
This paper proposes a new Linear Fractional Transformation (LFT) modeling approach for uncertain Lin...
The emphasis of this thesis is on the development of systematic methods for reducing the size and co...
This paper introduces a novel method to control linear parameter varying (LPV) systems by employing ...
Based on symbolic and numeric manipulations, a model simplification technique is proposed in this pa...
In this thesis, methods for rapidly developing LPV/LFT models for aerospace applications are propose...