The Experts below are selected from a list of 16995 Experts worldwide ranked by ideXlab platform
Aurelian Constantinescu - One of the best experts on this subject based on the ideXlab platform.
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Adaptive and Robust Active Vibration Control - Adaptive and robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos Silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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adaptive and robust Active Vibration Control
2017Co-Authors: Ioan Dore Landau, Tudor-bogdan Airimitoaie, Abraham Castellanossilva, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Adaptive and Robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Introduction to Adaptive and Robust Active Vibration Control
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Digital Control Strategies for Active Vibration Control—The Bases
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This chapter reviews basic digital Control strategies and their application to Active Vibration Control. The design of polynomial Controllers (RS Controllers) is discussed both from performance and robustness perspectives. The importance of sensitivity functions is enhanced. A number of basic concepts are defined and explained. A real-time example of an Active Vibration Control (suppression of a tonal Vibration) illustrates the design methodology presented in this chapter.
Ioan Dore Landau - One of the best experts on this subject based on the ideXlab platform.
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adaptive and robust Active Vibration Control
2017Co-Authors: Ioan Dore Landau, Tudor-bogdan Airimitoaie, Abraham Castellanossilva, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Adaptive and Robust Active Vibration Control - Adaptive and robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos Silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Adaptive and Robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Introduction to Adaptive and Robust Active Vibration Control
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Digital Control Strategies for Active Vibration Control—The Bases
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This chapter reviews basic digital Control strategies and their application to Active Vibration Control. The design of polynomial Controllers (RS Controllers) is discussed both from performance and robustness perspectives. The importance of sensitivity functions is enhanced. A number of basic concepts are defined and explained. A real-time example of an Active Vibration Control (suppression of a tonal Vibration) illustrates the design methodology presented in this chapter.
Tudor-bogdan Airimitoaie - One of the best experts on this subject based on the ideXlab platform.
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adaptive and robust Active Vibration Control
2017Co-Authors: Ioan Dore Landau, Tudor-bogdan Airimitoaie, Abraham Castellanossilva, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Adaptive and Robust Active Vibration Control - Adaptive and robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos Silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Adaptive and Robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Introduction to Adaptive and Robust Active Vibration Control
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Digital Control Strategies for Active Vibration Control—The Bases
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This chapter reviews basic digital Control strategies and their application to Active Vibration Control. The design of polynomial Controllers (RS Controllers) is discussed both from performance and robustness perspectives. The importance of sensitivity functions is enhanced. A number of basic concepts are defined and explained. A real-time example of an Active Vibration Control (suppression of a tonal Vibration) illustrates the design methodology presented in this chapter.
Wan Du - One of the best experts on this subject based on the ideXlab platform.
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Wireless sensor networks for Active Vibration Control in automobile structures
Smart Materials and Structures, 2012Co-Authors: Fabien Mieyeville, Gérard Scorletti, David Navarro, Mohamed Ichchou, Wan DuAbstract:Wireless Sensor Network (WSN) are nowadays widely used in monitoring and tracking applications. This paper presents the feasibility of using Wireless Sensor Networks in Active Vibration Control strategy. The Active Control method used is an Active-structural acoustic Control using piezoelectric sensors distributed on the car structure. This system aims at being merged in wireless sensor network whose head node collects data and process Control law so as to command piezoelectric actuators wisely placed on the structure. We will study the feasibility of implementing WSN in Active Vibration Control and introduce a complete design methodology to optimize hardware/software and Control law synergy in mechatronic systems. A design space exploration will be conducted so as to identify the best Wireless Sensor Network platform and the resulting impact on Control.
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Wireless sensor networks for Active Vibration Control in automobile structures
Smart Materials and Structures, 2012Co-Authors: Fabien Mieyeville, Gérard Scorletti, David Navarro, Mohamed Ichchou, Wan DuAbstract:Wireless sensor networks (WSNs) are nowadays widely used in monitoring and tracking applications. This paper presents the feasibility of using WSNs in Active Vibration Control strategies. The method employed here involves Active-structural acoustic Control using piezoelectric sensors distributed on a car structure. This system aims at being merged with a WSN whose head node collects data and processes Control laws so as to command piezoelectric actuators wisely placed on the structure. We will study the feasibility of implementing WSNs in Active Vibration Control and introduce a complete design methodology to optimize hardware/software and Control law synergy in mechatronic systems. A design space exploration will be conducted so as to identify the best WSN platform and the resulting impact on Control.
Abraham Castellanos-silva - One of the best experts on this subject based on the ideXlab platform.
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Adaptive and Robust Active Vibration Control
Advances in Industrial Control, 2017Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This book approaches the design of Active Vibration Control systems from the perspective of today’s ideas of computer Control. It formulates the various design problems encountered in the Active management of Vibration as Control problems and searches for the most appropriate tools to solve them. The experimental validation of the solutions proposed on relevant tests benches is also addressed. To promote the widespread acceptance of these techniques, the presentation eliminates unnecessary theoretical developments (which can be found elsewhere) and focuses on algorithms and their use. The solutions proposed cannot be fully understood and creatively exploited without a clear understanding of the basic concepts and methods, so these are considered in depth. The focus is on enhancing motivations, algorithm presentation and experimental evaluation. MATLAB®routines, Simulink® diagrams and bench-test data are available for download and encourage easy assimilation of the experimental and exemplary material. Three major problems are addressed in the book: Active damping to improve the performance of passive absorbers; adaptive feedback attenuation of single and multiple tonal Vibrations; and feedforward and feedback attenuation of broad band Vibrations. Adaptive and Robust Active Vibration Control will interest practising engineers and help them to acquire new concepts and techniques with good practical validation. It can be used as the basis for a course for graduate students in mechanical, mechatronics, industrial electronics, aerospace and naval engineering. Readers working in Active noise Control will also discover techniques with a high degree of cross-over potential for use in their field
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Introduction to Adaptive and Robust Active Vibration Control
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
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Digital Control Strategies for Active Vibration Control—The Bases
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:This chapter reviews basic digital Control strategies and their application to Active Vibration Control. The design of polynomial Controllers (RS Controllers) is discussed both from performance and robustness perspectives. The importance of sensitivity functions is enhanced. A number of basic concepts are defined and explained. A real-time example of an Active Vibration Control (suppression of a tonal Vibration) illustrates the design methodology presented in this chapter.
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Identification of the Active Vibration Control Systems—The Bases
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:In this chapter, the basic principles of identification of dynamic systems from input–output data are reviewed. The various steps of the system identification procedure are emphasized. Algorithms which were successfully used for identification of Active Vibration Control systems are presented.
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Adaptive and Robust Active Vibration Control - Adaptive and robust Active Vibration Control
Adaptive and Robust Active Vibration Control, 2016Co-Authors: Ioan Dore Landau, Abraham Castellanos-silva, Tudor-bogdan Airimitoaie, Aurelian ConstantinescuAbstract:The reasons for doing Active Vibration Control are emphasized as well as the principles of the basic approaches. Feedback and feedforward Vibration compensation approaches are discussed from a unified point of view. The high performance required in the presence of variability of the Vibration characteristics leads to the use of robust and adaptive designs for Active Vibration Control systems. The challenges related to these approaches are described.
