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668 results on '"Ragot, José"'

1. An approach to parameter identifiability for a class of nonlinear models represented in LPV form

Author

Srinivasarengan, Krishnan, Ragot, José, Aubrun, Christophe, and Maquin, Didier

Subjects
Mathematics - Optimization and Control
Abstract

In several model-based system maintenance problems, parameters are used to represent unknown characteristics of a component, equipment degradation, etc. This allows for modelling constant, slow-varying terms. The identifiability of these parameters is an important condition to estimate them. Linear Parameter Varying (LPV) models are being increasingly used in the industries as a bridge between linear and nonlinear models. Techniques exist that can rewrite some nonlinear models in LPV form. However, the problem of identifiability of these models is still at a nascent stage. In this paper, we propose an approach to verify identifiability of unknown parameters for LPV state-space models. It makes use of a parity-space like formulation to eliminate the states of the model. The resulting input-output-parameter equation is analysed to verify the identifiability of the original model or a subset of unknown parameters. This approach provides a framework for both continuous-time and discrete-time models and we illustrate it using examples.

Published
2020

2. Parameter Identifiability for Nonlinear LPV Models

Author

Srinivasarengan Krishnan, Ragot José, Aubrun Christophe, and Maquin Didier

Subjects
identifiability, parameter estimation, linear parameter varying models, parity space approach, null space, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95
Abstract

Linear parameter varying (LPV) models are being increasingly used as a bridge between linear and nonlinear models. From a mathematical point of view, a large class of nonlinear models can be rewritten in LPV or quasi-LPV forms easing their analysis. From a practical point of view, that kind of model can be used for introducing varying model parameters representing, for example, nonconstant characteristics of a component or an equipment degradation. This approach is frequently employed in several model-based system maintenance methods. The identifiability of these parameters is then a key issue for estimating their values based on which a decision can be made. However, the problem of identifiability of these models is still at a nascent stage. In this paper, we propose an approach to verify the identifiability of unknown parameters for LPV or quasi-LPV state-space models. It makes use of a parity-space like formulation to eliminate the states of the model. The resulting input-output-parameter equation is analyzed to verify the identifiability of the original model or a subset of unknown parameters. This approach provides a framework for both continuous-time and discrete-time models and is illustrated through various examples.

Published
2022
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3. An adaptive observer design approach for discrete-time nonlinear systems

Author

Srinivasarengan, Krishnan, Ragot, José, Aubrun, Christophe, and Maquin, Didier

Subjects
Mathematics - Optimization and Control
Abstract

We discuss a design approach for nonlinear discrete-time adaptive observer. This involves transforming a nonlinear system into a quasi-LPV (Linear Parameter Varying) polytopic model in Takagi-Sugeno (T-S) form using nonlinear embedding and sector nonlinearity (SNL) transformation. We then develop a discrete-time counterpart for a joint state and parameter estimation, based on design strategies developed for continuous time models in the existing literature. The design uses a Lyapunov approach and provides an error bounded by $\mathbb{L}_2$ gain. Based on this strategy, we propose a design for adaptive observers for nonlinear systems whose T-S form can have unmeasured premise variables., Comment: Submitted to the International Journal of Applied Mathematics and Computer Science, February 2017

Published
2017

4. An Adaptive Observer Design for Takagi-Sugeno type Nonlinear System

Author

Srinivasarengan, Krishnan, Ragot, José, Maquin, Didier, and Aubrun, Christophe

Subjects
Mathematics - Optimization and Control
Abstract

Takagi-Sugeno (T-S) type of polytopic models have been used prominently in the literature to analyze nonlinear systems. With the sector nonlinearity approach, an exact representation of a nonlinear system within a sector could be obtained in a T-S form. Hence, a number of observer design strategies have been proposed for nonlinear systems using the T-S framework. In this work, a design strategy for adaptive observers is presented for a type of T-S systems with unknown parameters. The proposed approach improves upon the existing literature in two folds: reduce the computational burden and provide an algorithmic procedure that would seamlessly connect the state estimation and parameter estimation parts of the observer design. Lyapunov approach is used for the stability analysis and the design procedure. The results are illustrated on a simulation example., Comment: Accepted for presentation at IFAC World Congress, 2017

Published
2017

9. An adaptive observer design approach for a class of discrete-time nonlinear systems

Author

Srinivasarengan Krishnan, Ragot José, Aubrun Christophe, and Maquin Didier

Subjects
adaptive observer, joint state and parameter estimation, takagi-sugeno model, time-varying parameter estimation, sector nonlinearity transformation, discrete-time nonlinear systems, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95
Abstract

We consider the problem of joint estimation of states and some constant parameters for a class of nonlinear discrete-time systems. This class contains systems that could be transformed into a quasi-LPV (linear parameter varying) polytopic model in the Takagi-Sugeno (T-S) form. Such systems could have unmeasured premise variables, a case usually overlooked in the observer design literature. We assert that, for such systems in discrete-time, the current literature lacks design strategies for joint state and parameter estimation. To this end, we adapt the existing literature on continuous-time linear systems for joint state and time-varying parameter estimation. We first develop the discrete-time version of this result for linear systems. A Lyapunov approach is used to illustrate stability, and bounds for the estimation error are obtained via the bounded real lemma. We use this result to achieve our objective for a design procedure for a class of nonlinear systems with constant parameters. This results in less conservative conditions and a simplified design procedure. A basic waste water treatment plant simulation example is discussed to illustrate the design procedure.

Published
2018
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13. Contributors

Author

Astorga-Zaragoza, Carlos-Manuel, primary, Bedouhene, Fazia, additional, Bennani, Cherifa, additional, Bessaoudi, Talel, additional, Bibi, Hamza, additional, Bouani, Faouzi, additional, Boubaker, Olfa, additional, Boutat-Baddas, Latifa, additional, Cieslak, Jérôme, additional, Dávila, Jorge, additional, Darouach, Mohamed, additional, Gómez-Gutiérrez, David, additional, Di Gennaro, Stefano, additional, Henry, David, additional, Hmida, Fayçal Ben, additional, Hsieh, Chien-Shu, additional, Ichalal, Dalil, additional, Jiang, Bin, additional, Karimi, Hamid Reza, additional, Kheloufi, Houria, additional, Laboudi, Khaled, additional, Lungu, Mihai, additional, Mahmoud, Magdi S., additional, Manamanni, Noureddine, additional, Mao, Zehui, additional, Maquin, Didier, additional, Marx, Benoît, additional, Mboup, Mamadou, additional, Messai, Nadhir, additional, Mohamed, Mokhtar, additional, Orjuela, Rodolfo, additional, Osorio-Gordillo, Gloria-Lilia, additional, Ragot, José, additional, Ramírez-Teviño, Antonio, additional, Rebaï, Souad Bezzaoucha, additional, Salhi, Hichem, additional, Sherif, Abdulaziz, additional, Trinh, Hieu, additional, Vázquez, Carlos Renato, additional, Voos, Holger, additional, Warrad, Seifeddine Ben, additional, Yan, Xing-Gang, additional, Zemouche, Ali, additional, and Zhu, Quan Min, additional

Published
2019
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16. State estimation for MISO non–linear systems in controller canonical form

Author

Schwaller Benoît, Ensminger Denis, Dresp-Langley Birgitta, and Ragot José

Subjects
non-linear systems, state observers, continuous time, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95
Abstract

We propose a new observer where the model, decomposed in generalized canonical form of regulation described by Fliess, is dissociated from the part assuring error correction. The obtained stable exact estimates give direct access to state variables in the form of successive derivatives. The dynamic response of the observer converges exponentially, as long as the nonlinearities are locally of Lipschitz type. In this case, we demonstrate that a quadratic Lyapunov function provides a number of inequalities which guarantee at least local stability. A synthesis of gains is proposed, independent of the observation time scale. Simulations of a Düffing system and a Lorenz strange attractor illustrate theoretical developments.

Published
2016
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37. A DATADRIVEN FAULT ISOLATIONMETHODBASED ON REFERENCE FAULTY SITUATIONSWITH APPLICATION TO A NONLINEAR CHEMICAL PROCESS.

Author

RAGOT, JOSÉ, MOUROT, GILLES, and KALLAS, MAYA

Subjects
INFORMATION storage & retrieval systems, FAULT location (Engineering), CHEMICAL processes
Abstract

The diagnosis of systems is one of the major steps in their control and its purpose is to determine the possible presence of dysfunctions, which affect the sensors and actuators associated with a system but also the internal components of the system itself. On the one hand, the diagnosis must therefore focus on the detection of a dysfunction and, on the other hand, on the physical localization of the dysfunction by specifying the component in a faulty situation, and then on its temporal localization. In this contribution, the emphasis is on the use of software redundancy applied to the detection of anomalies within the measurements collected in the system. The systems considered here are characterized by non-linear behaviours whose model is not known a priori. The proposed strategy therefore focuses on processing the data acquired on the system for which it is assumed that a healthy operating regime is known. Diagnostic procedures usually use this data corresponding to good operating regimes by comparing them with new situations that may contain faults. Our approach is fundamentally different in that the good functioning data allow us, by means of a non-linear prediction technique, to generate a lot of data that reflect all the faults under different excitation situations of the system. The database thus created characterizes the dysfunctions and then serves as a reference to be compared with real situations. This comparison, which then makes it possible to recognize the faulty situation, is based on a technique for evaluating the main angle between subspaces of system dysfunction situations. An important point of the discussion concerns the robustness and sensitivity of fault indicators. In particular, it is shown how, by non-linear combinations, it is possible to increase the size of these indicators in such a way as to facilitate the location of faults. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Mesures aberrantes : détection, localisation, suppression, acceptation et robustesse

Author

Ragot, José, Ragot, José, Centre de Recherche en Automatique de Nancy (CRAN), and Centre National de la Recherche Scientifique (CNRS)-Université de Lorraine (UL)

Subjects
[SPI.AUTO] Engineering Sciences [physics]/Automatic, [SPI.AUTO]Engineering Sciences [physics]/Automatic
Abstract

International audience; La détection de valeurs aberrantes et de mesures aberrantes en particulier, mais plus encore leur localisation, reste un préalable indispensable à leur utilisation dans tous les systèmes de surveillance. Cette détection/localisation ne peut se faire que si l'on dispose de comparaison des mesures en question avec des références. Dans certains cas, la priorité n'est pas directement la détection/localisation mais la réduction de l'influence des valeurs aberrantes dans les techniques de surveillance. A titre d'exemple on peut évaluer de façon robuste la corrélation entre deux séries temporelles corrompues par quelques valeurs aberrantes sans chercher à les éliminer dans une phase préalable. Dans cette communication, l'accent sera mis sur cette notion de robustesse au travers de quelques exemples.

Published
2019

47. Diagnosis of Systems with Multiple Operating Modes

Author

Boukhobza, Taha, primary, Hamelin, Frédéric, additional, Marx, Benoît, additional, Mourot, Gilles, additional, Nagy, Anca Maria, additional, Ragot, José, additional, Belkhiat, Djemal Eddine Chouaib, additional, Guelton, Kevin, additional, Jabri, Dalel, additional, Manamanni, Noureddine, additional, Martinez, Sinuhé, additional, Messai, Nadhir, additional, Cocquempot, Vincent, additional, Hakem, Assia, additional, Pekpe, Komi Midzodzi, additional, Zouari, Talel, additional, Defoort, Michael, additional, Djemai, Mohammed, additional, and Van Gorp, Jérémy, additional

Published
2013
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