WorldCat Identities

Meurer, Thomas

Overview
Works: 21 works in 63 publications in 3 languages and 1,002 library holdings
Genres: Conference papers and proceedings 
Roles: Author, Editor, Other, Contributor, Opponent, dgs, htt
Classifications: QA402.35, 629.836
Publication Timeline
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Most widely held works by Thomas Meurer
Control and observer design for nonlinear finite and infinite dimensional systems by Ernst-Dieter Gilles( )

17 editions published in 2005 in English and held by 514 WorldCat member libraries worldwide

This volume presents a well balanced combination of state-of-the-art theoretical results in the field of nonlinear controller and observer design, combined with industrial applications stemming from mechatronics, electrical, (bio- ) chemical engineering, and fluid dynamics. The unique combination of results of finite as well as infinite-dimensional systems makes this book a remarkable contribution addressing postgraduates, researchers, and engineers both at universities and in industry. The contributions to this book were presented at the Symposium on Nonlinear Control and Observer Design: From Theory to Applications (SYNCOD), held September 15-16, 2005, at the University of Stuttgart, Germany. The conference and this book are dedicated to the 65th birthday of Prof. Dr.-Ing. Dr.h.c. Michael Zeitz to honor his life - long research and contributions on the fields of nonlinear control and observer design
Control of higher-dimensional PDEs : flatness and backstepping designs by Thomas Meurer( )

19 editions published between 2012 and 2014 in English and German and held by 392 WorldCat member libraries worldwide

This monograph presents new model-based design methods for trajectory planning, feedback stabilization, state estimation, and tracking control of distributed-parameter systems governed by partial differential equations (PDEs). Flatness and backstepping techniques and their generalization to PDEs with higher-dimensional spatial domain lie at the core of this treatise. This includes the development of systematic late lumping design procedures and the deduction of semi-numerical approaches using suitable approximation methods. Theoretical developments are combined with both simulation examples and experimental results to bridge the gap between mathematical theory and control engineering practice in the rapidly evolving PDE control area. The text is divided into five parts featuring: - a literature survey of paradigms and control design methods for PDE systems - the first principle mathematical modeling of applications arising in heat and mass transfer, interconnected multi-agent systems, and piezo-actuated smart elastic structures - the generalization of flatness-based trajectory planning and feedforward control to parabolic and biharmonic PDE systems defined on general higher-dimensional domains - an extension of the backstepping approach to the feedback control and observer design for parabolic PDEs with parallelepiped domain and spatially and time varying parameters - the development of design techniques to realize exponentially stabilizing tracking control - the evaluation in simulations and experiments Control of Higher-Dimensional PDEs -- Flatness and Backstepping Designs is an advanced research monograph for graduate students in applied mathematics, control theory, and related fields. The book may serve as a reference to recent developments for researchers and control engineers interested in the analysis and control of systems governed by PDEs
Feedforward and feedback tracking control of diffusion convection reaction systems using summability methods by Thomas Meurer( Book )

5 editions published between 2005 and 2006 in English and held by 37 WorldCat member libraries worldwide

Control of Higher-Dimensional PDEs by Thomas Meurer( )

2 editions published in 2012 in English and held by 29 WorldCat member libraries worldwide

This monograph presents new model-based design methods for trajectory planning, feedback stabilization, state estimation, and tracking control of distributed-parameter systems governed by partial differential equations (PDEs). Flatness and backstepping techniques and their generalization to PDEs with higher-dimensional spatial domain lie at the core of this treatise. This includes the development of systematic late lumping design procedures and the deduction of semi-numerical approaches using suitable approximation methods. Theoretical developments are combined with both simulation examples and experimental results to bridge the gap between mathematical theory and control engineering practice in the rapidly evolving PDE control area. The text is divided into five parts featuring: - a literature survey of paradigms and control design methods for PDE systems - the first principle mathematical modeling of applications arising in heat and mass transfer, interconnected multi-agent systems, and piezo-actuated smart elastic structures - the generalization of flatness-based trajectory planning and feedforward control to parabolic and biharmonic PDE systems defined on general higher-dimensional domains - an extension of the backstepping approach to the feedback control and observer design for parabolic PDEs with parallelepiped domain and spatially and time varying parameters - the development of design techniques to realize exponentially stabilizing tracking control - the evaluation in simulations and experiments Control of Higher-Dimensional PDEs -- Flatness and Backstepping Designs is an advanced research monograph for graduate students in applied mathematics, control theory, and related fields. The book may serve as a reference to recent developments for researchers and control engineers interested in the analysis and control of systems governed by PDEs
Control-Oriented Characterization of Product Properties During Hot Hole-Flanging of X46Cr13 Sheet Material in a Progressive-Die by Juri Martschin( )

2 editions published in 2021 in English and held by 3 WorldCat member libraries worldwide

Mathematical modeling, motion planning and control of elastic structures with piezoelectric elements by Andreas Kater( )

1 edition published in 2019 in English and held by 3 WorldCat member libraries worldwide

Schwerpunktheft: Ausgewählte Beiträge der GMA-Fachausschüsse 1.30 und 1.40( Book )

1 edition published in 2020 in German and held by 3 WorldCat member libraries worldwide

Schwerpunktheft: GMA FA 1.30 und 1.40 by Identifikation und Simulation in der Automatisierungstechnik“ VDI/VDE GMA-Fachausschuss 1.30 „Modellbildung( Book )

1 edition published in 2019 in German and held by 2 WorldCat member libraries worldwide

Synthèse de lois de commande à base d'observateurs pour les systèmes à paramètres distribués : une approche Hamiltonienne à ports by Jesús Pablo Toledo Zucco( )

2 editions published in 2021 in English and held by 2 WorldCat member libraries worldwide

The port-Hamiltonian approach has shown to be well suited for the modelling and control of distributed parameter systems (DPSs). Some examples of this class of systems are the waves, beams, open channels, fluid motion, piezoelectric structures, and chemical reactors. In this thesis, we have provided some tools for the design of observer-based state feedback (OBSF) controllers for a class of DPSs. The class of DPSs studied in this thesis is the class of boundary controlled port-Hamiltonian systems (BC-PHSs). These are systems described by partial differential equations with actuators and sensors located at the spatial boundaries. For the synthesis, we have used two approaches: the early-lumping and the late-lumping approach. For the early lumping approach, we have proposed two methods to design the OBSF gains. In both, we combine classical control tools as the linear quadratic regulator or pole placement with the port-Hamiltonian approach to guarantee the closed-loop stability when applying the OBSF controller to the BC-PHS. For the late-lumping approach, we have proposed infinite-dimensional observers for BC-PHSs subject to different types of measurements. Depending on the case, the observer convergence is guaranteed to be asymptotic or exponential. Finally, some first steps toward the observer-based damping injection and energy shaping have been studied using the vibrating string as an example
Event-based control of networks modeled by a class of infinite dimensional systems by Nicolás Espitia Hoyos( )

1 edition published in 2017 in English and held by 2 WorldCat member libraries worldwide

This thesis provides contributions on event-based control of networks model by a class of infinite dimensional systems. We first focus on the modeling and boundary control of networks described by hyperbolic systems of conservation laws. Highly inspired by macroscopic models in communication networks, we deal with a coupled PDE-ODE, where the nodes (servers) are modeled by nonlinear ODEs whereas transmission lines are described by hyperbolic equations when communication delays may be taken into account. For the resulting linearized system around an optimal equilibrium point, Input-to state stability (ISS) analysis as well as asymptotic gain control synthesis are carried out by means of Lyapunov techniques and LMI formulation.We then address some theoretical aspects of event-based boundary control of hyperbolic systems. One one hand, with this computer control strategy, we intend to reduce energy consumption when dealing with communication and computational constraints. On the other hand, we use this strategy as a rigorous way of sampling in time when implementation of continuous time controllers on a digital platform is required. A mathematical study regarding well-posedness of the solutions as well as stability issues is conducted
Contrôle frontière de l'équation des ondes avec amortissement distribué by Christophe Roman( )

1 edition published in 2018 in English and held by 2 WorldCat member libraries worldwide

This thesis is concerned by the boundary control of the one dimensional wave equation, which can be used to model a string (like a guitar string). The objective is to act at one boundary to control and stabilize the otherboundary which is considered to be an unstable dynamic boundary condition. This thesis suggests answers to both following questions:Consider that the unstable dynamics boundary condition has some unknown parameters. Is a nonlinear adaptive control law still performing efficiently, if the viscous damping taken equal to zero for its design is no longer neglected?How can we take into account the in-domain damping in order to stabilize the wave equation subject to dynamic boundary conditions?This thesis suggests a method to derive a Lyapunov analysis in order to prove the robustness mismatch ofparticular nonlinear adaptive control law as the answer of the first question. Then using infinite dimensionalbackstepping technique we develop feedback control law that exponentially stabilize the considered wave equation
Thermal Stress Based Model Predictive Control of Power Electronic Converters in Electric Drives Applications by Johannes Falck( )

1 edition published in 2021 in English and held by 2 WorldCat member libraries worldwide

Special issue: Verteilt-parametrische Systeme( Book )

1 edition published in 2017 in German and held by 2 WorldCat member libraries worldwide

Modélisation Hamiltonienne à ports et commande distribuée de structures flexibles : application aux endoscopes biomédicaux à actionneurs à base de polymère électro-actif by Ning Liu( )

2 editions published in 2020 in French and held by 2 WorldCat member libraries worldwide

This thesis deals with the multiphysical modeling and the distributed control of flexible structures actuated by Ionic Polymer Metal Composite (IPMC) actuators. We firstly propose a model for the IPMC actuator using infinite dimensional port-Hamiltonian formulations in order to tackle the multiphysical and multiscale couplings. Lagrange multipliers are used to handle the mechanical constraints appearing in the actuator. The mechanical structure of the flexible structure is then modeled in 1D with beam models and in 2D with a thin shell model. Secondly, two structure preserving discretization methods are presented and extended to infinite dimensional dissipative port-Hamiltonian system with distributed input. The proposed IPMC actuator model is then discretized using the structure preserving finite differences method on staggered grids and validated on experimental data. Thirdly, we propose an in-domain distributed control law on a simplified model i.e. the vibrating string actuated with patches, that allows to shape the total energy of the system and to inject damping in order to stabilize the overall system with predefined performances
Control of Higher<U+0080>́<U+0093>Dimensional PDEs Flatness and Backstepping Designs by Thomas Meurer( Book )

1 edition published in 2013 in English and held by 1 WorldCat member library worldwide

This monograph presents new model-based design methods for trajectory planning, feedback stabilization, state estimation, and tracking control of distributed-parameter systems governed by partial differential equations (PDEs). Flatness and backstepping techniques and their generalization to PDEs with higher-dimensional spatial domain lie at the core of this treatise. This includes the development of systematic late lumping design procedures and the deduction of semi-numerical approaches using suitable approximation methods. Theoretical developments are combined with both simulation examples and experimental results to bridge the gap between mathematical theory and control engineering practice in the rapidly evolving PDE control area. The text is divided into five parts featuring: - a literature survey of paradigms and control design methods for PDE systems -℗ the first principle mathematical modeling of applications arising in heat and mass transfer, interconnected multi-agent systems, and piezo-actuated smart elastic structures -℗ the generalization of flatness-based trajectory planning and feedforward control to parabolic and biharmonic PDE systems defined on general higher-dimensional domains -℗ an extension of the backstepping approach to the feedback control and observer design for parabolic PDEs with parallelepiped domain and spatially and time varying parameters -℗ the development of design techniques to realize exponentially stabilizing tracking control -℗ the evaluation in simulations and experiments Control of Higher-Dimensional PDEs <U+0080>́<U+0094> Flatness and Backstepping Designs is an advanced research monograph for graduate students in applied mathematics, control theory, and related fields. The book may serve as a reference to recent developments for researchers and control engineers interested in the analysis and control of systems governed by PDEs
Schwerpunktheft: Ausgewählte Beiträge des GMA-Fachausschusses 1.40, Teil 2( Book )

1 edition published in 2021 in German and held by 1 WorldCat member library worldwide

Special issue: GMA FA 1.30 und 1.40( Book )

1 edition published in 2019 in German and held by 1 WorldCat member library worldwide

Special issue: GMA 1.30 et 1.40( Book )

1 edition published in 2018 in German and held by 1 WorldCat member library worldwide

Observer design for a class of nonlinear systems combining dissipativity with interconnection and damping assignment by Bastian Biedermann( )

1 edition published in 2021 in English and held by 1 WorldCat member library worldwide

Schwerpunktheft: Ausgewählte Beiträge des GMA-Fachausschusses 1.40, Teil 1( Book )

1 edition published in 2021 in German and held by 1 WorldCat member library worldwide

 
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Control and observer design for nonlinear finite and infinite dimensional systems
Covers
Control of higher-dimensional PDEs : flatness and backstepping designsControl of Higher-Dimensional PDEs
Alternative Names
Meurer, T.

Languages
English (52)

German (8)

French (2)