Add to ORKGIn this work we propose several algorithms to solve the reconguration problem for linear and hybrid systems. In particular, we consider the decision about the usage of redundant hardware in order to compensate for faults. While this problem can be translated into a constrained model predictive control framework, the computational complexity grows very fast, as the number of possible decisions increases. In this work we propose schemes, that require low computational eort. We discuss the applicability of the methods considering the reconguration of the three tank benchmark system
This paper addresses a fault accommodation problem for hybrid systems resulting from quantization of...
This paper addresses the issue of optimal redundancy allocation in hybrid structure large binary sys...
ABSTRACT: The Mixed Logical Dynamical (MLD) formalism has proved to be an efficient modelling framew...
In this work we propose several algorithms to solve the reconfiguration problem for linear and hybri...
In this work we propose several algorithms to solve the reconfiguration problem for linear and hybri...
This paper presents an efficient optimization algorithm suitable for online solution of mixed intege...
International audienceThe paper proposes a model reduction algorithm for linear hybrid systems, i.e....
This paper deals with Mixed LogicalDynamical (MLD) approach. It allows to model the hybridsystems in...
This paper outlines an algorithm for controller reconfiguration for non-linear systems, based on a c...
We propose a procedure for synthesizing piecewise linear optimal controllers for hybrid systems and ...
A method is proposed for on-line reconfiguration of the terminal constraint used to provide theoreti...
Abstract: As many systems depend on electronics, concern for fault tolerance is growing rapidly. For...
An approach to reconfiguring control systems in the event of major failures is advocated. The approa...
The ever-increasing need for accurate mathematical modelling of physical as well as artificial proce...
A switching max-plus linear model is a framework to describe the discrete dynamics of the timing of ...
This paper addresses a fault accommodation problem for hybrid systems resulting from quantization of...
This paper addresses the issue of optimal redundancy allocation in hybrid structure large binary sys...
ABSTRACT: The Mixed Logical Dynamical (MLD) formalism has proved to be an efficient modelling framew...
In this work we propose several algorithms to solve the reconfiguration problem for linear and hybri...
In this work we propose several algorithms to solve the reconfiguration problem for linear and hybri...
This paper presents an efficient optimization algorithm suitable for online solution of mixed intege...
International audienceThe paper proposes a model reduction algorithm for linear hybrid systems, i.e....
This paper deals with Mixed LogicalDynamical (MLD) approach. It allows to model the hybridsystems in...
This paper outlines an algorithm for controller reconfiguration for non-linear systems, based on a c...
We propose a procedure for synthesizing piecewise linear optimal controllers for hybrid systems and ...
A method is proposed for on-line reconfiguration of the terminal constraint used to provide theoreti...
Abstract: As many systems depend on electronics, concern for fault tolerance is growing rapidly. For...
An approach to reconfiguring control systems in the event of major failures is advocated. The approa...
The ever-increasing need for accurate mathematical modelling of physical as well as artificial proce...
A switching max-plus linear model is a framework to describe the discrete dynamics of the timing of ...
This paper addresses a fault accommodation problem for hybrid systems resulting from quantization of...
This paper addresses the issue of optimal redundancy allocation in hybrid structure large binary sys...
ABSTRACT: The Mixed Logical Dynamical (MLD) formalism has proved to be an efficient modelling framew...