Add to ORKGNew methods for model validation of continuous-time nonlinear systems with uncertain parameters are presented in this paper. The methods employ functions of state-parameter-time, termed here as barrier certificates, whose existence proves that a model and a feasible parameter set are inconsistent with some time-domain experimental data. A very large class of models, including differential-algebraic models, models with memoryless/dynamic uncertainties, and hybrid models, can be treated within this framework. Construction of barrier certificates can be performed by convex optimization, utilizing the sum of squares decomposition of multivariate polynomials
International audienceRecently, barrier certificates have been introduced to prove the safety of con...
The model validation problem assuming time-varying parameter uncertainty is addressed. A particular ...
This dissertation develops a probabilistic method for validation and verification (V&V) of uncertain...
New methods for model validation of continuous-time nonlinear systems with uncertain parameters are ...
Control strategies for nonlinear dynamical systems often make use of special system properties, whic...
In most applications in control engineering a measurement of all state variables is either impossibl...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
Abstract: A methodology for safety verification of nonlinear systems using barrier certificates has ...
A methodology for safety verification of nonlinear systems using barrier certificates has been propo...
This paper presents a methodology for safety verification of continuous and hybrid systems in the wo...
Abstract-This paper deals with the problem of model (in)validation of discrete-time, causal, LTI sta...
International audienceSafety verification of hybrid dynamical systems relies crucially on the abilit...
We develop a new method for safety verification of stochastic systems based on functions of states t...
Uncertainty is unavoidable in modeling dynamical systems and it may be represented mathematically by...
Uncertainty is unavoidable in modeling dynamical systems and it may be represented mathematically by...
International audienceRecently, barrier certificates have been introduced to prove the safety of con...
The model validation problem assuming time-varying parameter uncertainty is addressed. A particular ...
This dissertation develops a probabilistic method for validation and verification (V&V) of uncertain...
New methods for model validation of continuous-time nonlinear systems with uncertain parameters are ...
Control strategies for nonlinear dynamical systems often make use of special system properties, whic...
In most applications in control engineering a measurement of all state variables is either impossibl...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
Abstract: A methodology for safety verification of nonlinear systems using barrier certificates has ...
A methodology for safety verification of nonlinear systems using barrier certificates has been propo...
This paper presents a methodology for safety verification of continuous and hybrid systems in the wo...
Abstract-This paper deals with the problem of model (in)validation of discrete-time, causal, LTI sta...
International audienceSafety verification of hybrid dynamical systems relies crucially on the abilit...
We develop a new method for safety verification of stochastic systems based on functions of states t...
Uncertainty is unavoidable in modeling dynamical systems and it may be represented mathematically by...
Uncertainty is unavoidable in modeling dynamical systems and it may be represented mathematically by...
International audienceRecently, barrier certificates have been introduced to prove the safety of con...
The model validation problem assuming time-varying parameter uncertainty is addressed. A particular ...
This dissertation develops a probabilistic method for validation and verification (V&V) of uncertain...