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Affiner la recherche Interroger des sources externesEngineering Biosensors / Ajit Sadana
Titre : Engineering Biosensors : kinetics and design applications Type de document : texte imprimé Auteurs : Ajit Sadana, Auteur Editeur : San Diego, London, Boston : Academic Press Année de publication : 2001 Importance : 404 p. Présentation : couv. ill. en coul., ill. Format : 23,5 cm. ISBN/ISSN/EAN : 978-0-12-613763-7 Langues : Anglais (eng) Index. décimale : 09-09 capteurs Résumé : Biosensors are becoming increasingly important bioanalytical tools in the pharmaceutical, biotechnology, food, and other consumer oriented industries. The technology, though well developed in Europe, is slowly developing and has begun to generate interest in the United States only over the past couple of years. Research is now being directed toward the development of biosensors that are versatile, economical, and simple to use. Engineering Biosensors is a comprehensive introduction to biosensors that includes numerous illustrations to further explain the main concepts and practical examples from existing literature. It describes what biosensors are, where they are used, and how their performance is affected by existing surface characteristics. A better understanding of biosensors, as provided by this book, will greatly assist in the design of new as well as the improvement of existing biosensors. Readers are also provided with invaluable and hard-to-find data on the economics of the biosensor market to assist them in better understanding the market and where it is heading. Note de contenu : Contents
1 - Introduction
2 - Influence of Diffusional Limitations and Reaction Order on Antigen–Antibody Binding Kinetics
3 - Influence of Diffusional Limitations and Lateral Interactions on Antigen–Antibody Binding Kinetics
4 - Fractal Reaction Kinetics
5 - Influence of Different Parameters on Fractal Dimension Values During the Binding Phase
6 - Fractal Dimension and the Binding Rate Coefficient
7 - Fractal Dimension and the Dissociation Rate Coefficient
8 - Influence of Nonspecific Binding on the Rate and Amount of Specific Binding: A Classical Analysis
9 - Influence of Nonspecific Binding on the Rate and Amount of Specific Binding: A Fractal Analysis
10 - Fractal Dimension and Hybridization
11 - Fractal Dimension and Analyte-Receptor Binding in Cells
12 - Surface Plasmon Resonance Biosensors
13 - Economics and Market for Biosensors
-INDEXEngineering Biosensors : kinetics and design applications [texte imprimé] / Ajit Sadana, Auteur . - San Diego, London, Boston : Academic Press, 2001 . - 404 p. : couv. ill. en coul., ill. ; 23,5 cm.
ISBN : 978-0-12-613763-7
Langues : Anglais (eng)
Index. décimale : 09-09 capteurs Résumé : Biosensors are becoming increasingly important bioanalytical tools in the pharmaceutical, biotechnology, food, and other consumer oriented industries. The technology, though well developed in Europe, is slowly developing and has begun to generate interest in the United States only over the past couple of years. Research is now being directed toward the development of biosensors that are versatile, economical, and simple to use. Engineering Biosensors is a comprehensive introduction to biosensors that includes numerous illustrations to further explain the main concepts and practical examples from existing literature. It describes what biosensors are, where they are used, and how their performance is affected by existing surface characteristics. A better understanding of biosensors, as provided by this book, will greatly assist in the design of new as well as the improvement of existing biosensors. Readers are also provided with invaluable and hard-to-find data on the economics of the biosensor market to assist them in better understanding the market and where it is heading. Note de contenu : Contents
1 - Introduction
2 - Influence of Diffusional Limitations and Reaction Order on Antigen–Antibody Binding Kinetics
3 - Influence of Diffusional Limitations and Lateral Interactions on Antigen–Antibody Binding Kinetics
4 - Fractal Reaction Kinetics
5 - Influence of Different Parameters on Fractal Dimension Values During the Binding Phase
6 - Fractal Dimension and the Binding Rate Coefficient
7 - Fractal Dimension and the Dissociation Rate Coefficient
8 - Influence of Nonspecific Binding on the Rate and Amount of Specific Binding: A Classical Analysis
9 - Influence of Nonspecific Binding on the Rate and Amount of Specific Binding: A Fractal Analysis
10 - Fractal Dimension and Hybridization
11 - Fractal Dimension and Analyte-Receptor Binding in Cells
12 - Surface Plasmon Resonance Biosensors
13 - Economics and Market for Biosensors
-INDEXExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 2573 09-09-10 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2573 2574 09-09-10 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2574
Titre : Control in power electronics : selected problems Type de document : texte imprimé Auteurs : Marian P. Kazmierkowski, Auteur ; Ramu Krishnan, Auteur ; Frede Blaabjerg, Auteur Editeur : San Diego, London, Boston : Academic Press Année de publication : 2002 Collection : Academic Press Series in Engineering Series Importance : 518 p. Présentation : couv. ill. en coul., ill. Format : 25.4 cm ISBN/ISSN/EAN : 978-0-12-402772-5 Langues : Anglais (eng) Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : The authors were originally brought together to share research and applications through the international Danfoss Professor Programme at Aalborg University in Denmark.
Personal computers would be unwieldy and inefficient without power electronic dc supplies. Portable communication devices and computers would also be impractical. High-performance lighting systems, motor controls, and a wide range of industrial controls depend on power electronics. In the near future we can expect strong growth in automotive applications, dc power supplies for communication systems, portable applications, and high-end converters. We are approaching a time when all electrical energy will be processed and controlled through power electronics somewhere in the path from generation to end use.Note de contenu : Contents:
Part I: PWM Converters: Topologies and Control
1. Power Electronic Converters
2. Resonant dc Link Converters
3. Fundamentals of the Matrix Converter Technology
4. Pulse Width Modulation Techniques for Three-Phase Voltage Source Converters
Part II: Motor Control
5. Control of PWM Inverter-Fed Induction Motors;
6. Energy Optimal Control of Induction Motor Drives;
7. Comparison of Torque Control Strategies Based on the Constant Power Loss Control System for PMSM;
8. Modeling and Control of Synchronous Reluctance Machines
9. Direct Torque and Flux Control (DTFC) of ac Drives
10. Neural Networks and Fuzzy Logic Control in Power Electronics
Part III: Utilities Interface and Wind Turbine Systems
11. Control of Three-Phase PWM Rectifiers
12. Power Quality and Adjustable Speed Drives
13. Wind Turbine Systems
IndexControl in power electronics : selected problems [texte imprimé] / Marian P. Kazmierkowski, Auteur ; Ramu Krishnan, Auteur ; Frede Blaabjerg, Auteur . - San Diego, London, Boston : Academic Press, 2002 . - 518 p. : couv. ill. en coul., ill. ; 25.4 cm. - (Academic Press Series in Engineering Series) .
ISBN : 978-0-12-402772-5
Langues : Anglais (eng)
Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : The authors were originally brought together to share research and applications through the international Danfoss Professor Programme at Aalborg University in Denmark.
Personal computers would be unwieldy and inefficient without power electronic dc supplies. Portable communication devices and computers would also be impractical. High-performance lighting systems, motor controls, and a wide range of industrial controls depend on power electronics. In the near future we can expect strong growth in automotive applications, dc power supplies for communication systems, portable applications, and high-end converters. We are approaching a time when all electrical energy will be processed and controlled through power electronics somewhere in the path from generation to end use.Note de contenu : Contents:
Part I: PWM Converters: Topologies and Control
1. Power Electronic Converters
2. Resonant dc Link Converters
3. Fundamentals of the Matrix Converter Technology
4. Pulse Width Modulation Techniques for Three-Phase Voltage Source Converters
Part II: Motor Control
5. Control of PWM Inverter-Fed Induction Motors;
6. Energy Optimal Control of Induction Motor Drives;
7. Comparison of Torque Control Strategies Based on the Constant Power Loss Control System for PMSM;
8. Modeling and Control of Synchronous Reluctance Machines
9. Direct Torque and Flux Control (DTFC) of ac Drives
10. Neural Networks and Fuzzy Logic Control in Power Electronics
Part III: Utilities Interface and Wind Turbine Systems
11. Control of Three-Phase PWM Rectifiers
12. Power Quality and Adjustable Speed Drives
13. Wind Turbine Systems
IndexRéservation
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Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 01 10-05-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Disponible 01
Titre : Control of induction motors Type de document : texte imprimé Auteurs : Andrzej M. Trzynadlowski, Auteur Editeur : San Diego, London, Boston : Academic Press Année de publication : 2001 Collection : Academic Press Series in Engineering Series Importance : 228 p. Présentation : couv. ill. en coul., ill. Format : 24 cm. ISBN/ISSN/EAN : 978-0-12-701510-1 Langues : Anglais (eng) Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : This book is a comprehensive reference source for practicing engineers and students specializing in electric power engineering and industrial electronics. It will illustrate the state of the art in induction motors. Beginning with characteristics and basic dynamic models of induction motors, and progressing to low- and high- performance drive systems. The book will be rich in useful information, without an excessive mathematical burden. Computer simulations resulting in mock oscillograms of physical quantities are used for illustration of basic control concepts. The content of this book is divided into three basic parts: 1) control-oriented description of induction motors, 2) control methods, and systems, 3) control means. An induction motor is presented as an electromechanical power converter, and basic relations between the electrical, magnetic and mechanical quantities in the motor will be explained. Control methods and systems will be classified according to the controlled variables(torque, speed, flux), actuating variables(voltage, current), and dynamic performance (uncontrolled, low-performance, and high-performance). An overview of power electronic converters and information processing equipment used in the modern induction motor drives is included. Such systematic approach will give the readers a comprehensive overview of the field of induction motor control.
Note de contenu : Contents:
Chapter 1. Background
1.1 Induction Motors
1.2 Drive Systems with Induction Motors
1.3 Common Loads
1.4 Operating Quadrants
1.5 Scalar and Vector Control Methods
Chapter 2. Construction and Steady-State Operation of Induction Motors
2.1 Construction
2.2 Revolving Magnetic Field
2.3 Steady-State Equivalent Circuit
2.4 Developed Torque
2.5 Steady-State Characteristics
2.6 Induction Generator
Chapter 3. Uncontrolled Induction Motor Drives
3.1 Uncontrolled Operation of Induction Motors
3.2 Assisted Starting
3.3 Braking and Reversing
3.4 Pole Changing
3.5 Abnormal Operating Conditions
Chapter 4. Power Electronic Converters for Induction Motor Drives
4.1 Control of Stator Voltage
4.2 Rectifiers
4.3 Inverters
4.4 Frequency Changers
4.5 Control of Voltage Source Inverters
4.6 Control of Current Source Inverters
4.7 Side Effects of Converter Operation in Adjustable Speed Drives
Chapter 5. Scalar Control Methods
5.1 Two-Inductance Equivalent Circuits of the Induction Motor
5.2 Open-Loop Scalar Speed Control (Constant Volts/Hertz)
5.3 Closed-Loop Scalar Speed Control
5.4 Scalar Torque Control
Chapter 6. Dynamic Model of the Induction Motor
6.1 Space Vectors of Motor Variables
6.2 Dynamic Equations of the Induction Motor
6.3 Revolving Reference Frame
Chapter 7. Field Orientation
7.1 Torque Production and Control in the DC Motor
7.2 Principles of Field Orientation
7.3 Direct Field Orientation
7.4 Indirect Field Orientation
7.5 Stator and Airgap Flux Orientation
7.6 Drives with Current Source Inverters
Chapter 8. Direct Torque and Flux Control
8.1 Induction Motor Control by Selection of Inverter States
8.2 Direct Torque Control
8.3 Direct Self-Control
8.4 Space-Vector Direct Torque and Flux Control
Chapter 9. Speed and Position Control
9.1 Variables Controlled in Induction Motor Drives
9.2 Speed Control
9.3 Machine Intelligence Controllers
9.4 Position Control
Chapter 10. Sensorless Drives
10.1 Issues in Sensorless Control of Induction Motors
10.2 Flux Calculators
10.3 Speed Calculators
10.4 Parameter Adaptation and Self-Commissioning
10.5 Commercial Adjustable Speed Drives
Literature
Glossary of Symbols
IndexControl of induction motors [texte imprimé] / Andrzej M. Trzynadlowski, Auteur . - San Diego, London, Boston : Academic Press, 2001 . - 228 p. : couv. ill. en coul., ill. ; 24 cm.. - (Academic Press Series in Engineering Series) .
ISBN : 978-0-12-701510-1
Langues : Anglais (eng)
Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : This book is a comprehensive reference source for practicing engineers and students specializing in electric power engineering and industrial electronics. It will illustrate the state of the art in induction motors. Beginning with characteristics and basic dynamic models of induction motors, and progressing to low- and high- performance drive systems. The book will be rich in useful information, without an excessive mathematical burden. Computer simulations resulting in mock oscillograms of physical quantities are used for illustration of basic control concepts. The content of this book is divided into three basic parts: 1) control-oriented description of induction motors, 2) control methods, and systems, 3) control means. An induction motor is presented as an electromechanical power converter, and basic relations between the electrical, magnetic and mechanical quantities in the motor will be explained. Control methods and systems will be classified according to the controlled variables(torque, speed, flux), actuating variables(voltage, current), and dynamic performance (uncontrolled, low-performance, and high-performance). An overview of power electronic converters and information processing equipment used in the modern induction motor drives is included. Such systematic approach will give the readers a comprehensive overview of the field of induction motor control.
Note de contenu : Contents:
Chapter 1. Background
1.1 Induction Motors
1.2 Drive Systems with Induction Motors
1.3 Common Loads
1.4 Operating Quadrants
1.5 Scalar and Vector Control Methods
Chapter 2. Construction and Steady-State Operation of Induction Motors
2.1 Construction
2.2 Revolving Magnetic Field
2.3 Steady-State Equivalent Circuit
2.4 Developed Torque
2.5 Steady-State Characteristics
2.6 Induction Generator
Chapter 3. Uncontrolled Induction Motor Drives
3.1 Uncontrolled Operation of Induction Motors
3.2 Assisted Starting
3.3 Braking and Reversing
3.4 Pole Changing
3.5 Abnormal Operating Conditions
Chapter 4. Power Electronic Converters for Induction Motor Drives
4.1 Control of Stator Voltage
4.2 Rectifiers
4.3 Inverters
4.4 Frequency Changers
4.5 Control of Voltage Source Inverters
4.6 Control of Current Source Inverters
4.7 Side Effects of Converter Operation in Adjustable Speed Drives
Chapter 5. Scalar Control Methods
5.1 Two-Inductance Equivalent Circuits of the Induction Motor
5.2 Open-Loop Scalar Speed Control (Constant Volts/Hertz)
5.3 Closed-Loop Scalar Speed Control
5.4 Scalar Torque Control
Chapter 6. Dynamic Model of the Induction Motor
6.1 Space Vectors of Motor Variables
6.2 Dynamic Equations of the Induction Motor
6.3 Revolving Reference Frame
Chapter 7. Field Orientation
7.1 Torque Production and Control in the DC Motor
7.2 Principles of Field Orientation
7.3 Direct Field Orientation
7.4 Indirect Field Orientation
7.5 Stator and Airgap Flux Orientation
7.6 Drives with Current Source Inverters
Chapter 8. Direct Torque and Flux Control
8.1 Induction Motor Control by Selection of Inverter States
8.2 Direct Torque Control
8.3 Direct Self-Control
8.4 Space-Vector Direct Torque and Flux Control
Chapter 9. Speed and Position Control
9.1 Variables Controlled in Induction Motor Drives
9.2 Speed Control
9.3 Machine Intelligence Controllers
9.4 Position Control
Chapter 10. Sensorless Drives
10.1 Issues in Sensorless Control of Induction Motors
10.2 Flux Calculators
10.3 Speed Calculators
10.4 Parameter Adaptation and Self-Commissioning
10.5 Commercial Adjustable Speed Drives
Literature
Glossary of Symbols
IndexRéservation
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Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1915 10-05-16 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1915 03 10-05-16 Livre Bibliothèque de Génie Electrique- USTO Documentaires Disponible 03
Titre : Design of Medical Electronic Devices Type de document : texte imprimé Auteurs : Perez Reinaldo, Auteur Editeur : San Diego, London, Boston : Academic Press Année de publication : 2002 Importance : 279 p. Présentation : couv. ill. en coul., ill. Format : 26,2 cm. ISBN/ISSN/EAN : 978-0-12-550711-0 Langues : Anglais (eng) Index. décimale : 35-02 Instrumentation biomédicale Résumé : The design of medical electronics is unique because of the background needed by the engineers and scientists involved. Often the designer is a medical or life science professional without any training in electronics or design. Likewise, few engineers are specifically trained in biomedical engineering and have little or no exposure to the specific medical requirements of these devices. Design of Medical Electronic Devices presents all essential topics necessary for basic and advanced design. All aspects of the electronics of medical devices are also covered. This is an essential book for graduate students as well as professionals involved in the design of medical equipment.
Covers every stage of the process, from design to manufacturing to implementation
Topics covered include analogue/digital conversions, data acquisition, signal processing, optics, and reliability and failureNote de contenu : Contents
Introduction
Chapter 1. Proper Design of Power Subsystems in Medical Electronics
Chapter 2. Fundamentals of Magnetic Resonance Imaging
Chapter 3. Particle Accelerator Design
Chapter 4. Sensor Characteristics
Chapter 5. Data Acquisition
Chapter 6. Noise and Interference Issues in Analog Circuits
Chapter 7. Hardware Approach to Digital Signal Processing
Chapter 8. Optical Sensors
IndexDesign of Medical Electronic Devices [texte imprimé] / Perez Reinaldo, Auteur . - San Diego, London, Boston : Academic Press, 2002 . - 279 p. : couv. ill. en coul., ill. ; 26,2 cm.
ISBN : 978-0-12-550711-0
Langues : Anglais (eng)
Index. décimale : 35-02 Instrumentation biomédicale Résumé : The design of medical electronics is unique because of the background needed by the engineers and scientists involved. Often the designer is a medical or life science professional without any training in electronics or design. Likewise, few engineers are specifically trained in biomedical engineering and have little or no exposure to the specific medical requirements of these devices. Design of Medical Electronic Devices presents all essential topics necessary for basic and advanced design. All aspects of the electronics of medical devices are also covered. This is an essential book for graduate students as well as professionals involved in the design of medical equipment.
Covers every stage of the process, from design to manufacturing to implementation
Topics covered include analogue/digital conversions, data acquisition, signal processing, optics, and reliability and failureNote de contenu : Contents
Introduction
Chapter 1. Proper Design of Power Subsystems in Medical Electronics
Chapter 2. Fundamentals of Magnetic Resonance Imaging
Chapter 3. Particle Accelerator Design
Chapter 4. Sensor Characteristics
Chapter 5. Data Acquisition
Chapter 6. Noise and Interference Issues in Analog Circuits
Chapter 7. Hardware Approach to Digital Signal Processing
Chapter 8. Optical Sensors
IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 2010 35-02-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2010 2011 35-02-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2011 2555 35-02-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2555 2556 35-02-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2556
Titre : Signal Processing for Active Control Type de document : texte imprimé Auteurs : Stephen J. Elliott, Auteur Editeur : San Diego, London, Boston : Academic Press Année de publication : 2001 Collection : Signal Processing and its Applications Importance : 511 p. Présentation : couv. ill.,ill. Format : 24,1 cm. ISBN/ISSN/EAN : 978-0-12-237085-4 Langues : Anglais (eng) Index. décimale : 25-02 Théorie et traitement du signal Résumé : Signal Processing for Active Control sets out the signal processing and automatic control techniques that are used in the analysis and implementation of active systems for the control of sound and vibration. After reviewing the performance limitations introduced by physical aspects of active control, Stephen Elliott presents the calculation of the optimal performance and the implementation of adaptive real time controllers for a wide variety of active control systems.
Active sound and vibration control are technologically important problems with many applications. 'Active control' means controlling disturbance by superimposing a second disturbance on the original source of disturbance. Put simply, initial noise + other specially-generated noise or vibration = silence [or controlled noise].
This book presents a unified approach to techniques that are used in the analysis and implementation of different control systems. It includes practical examples at the end of each chapter to illustrate the use of various approaches.
This book is intended for researchers, engineers, and students in the field of acoustics, active control, signal processing, and electrical engineering.
Note de contenu : Contents
Chapter 1. The Physical Basis for Active Control
1.2. Control of wave transmission
1.3. Control of power in infinite systems
1.4. Strategies of control in finite systems
1.5. Control of energy in finite systems
1.6. Control of sound radiation from structures
1.7. Local control of sound and vibration
Chapter 2. Optimal and Adaptive Digital Filters
2.2. Structure of digital filters
2.3. Optimal filters in the time domain
2.4. Optimal filters in the transfortn Domain
2.5. Multichannel optimal filters
2.6. The LMS algorithm
2.7. The RLS algorithm
2.8. Frcquency-dornain adaptation
2.9. Adaptive IIR filters
Chapter 3. Single-Channel Feedforward Control
3.2. Control of deterministic disturbances
3.3. Optimal control of stochastic disturbances
3.4. Adaptive FIR controllers
3.5. Frequency-domain adaptation of FIR controllers
3.6. Plant identification
3.7. Adaptive IIR controllers
3.8. Practical applications
Chapter 4. Multichannel Control of Tonal Disturbances
4.2. Optinlal control of tonal disturbances
4.3. Steepest-descent algorithms
4.4. Robustness to plant uncertainties and plant tnodel errors
4.5. Iterative least-squares algorithms
4.6. Feedback control interpretation of adaptive feedforward systems
4.7. Minimisation of the maximum level at any sensor
4.8. Applications
Chapter 5. Multichannel Control of Stochastic Disturbances
5.2. Optimal control in the time domain
5.3. Optimal control in the transfom domain
5.4. Adaptive algorithms in the time domain
5.5. The preconditioned LMS algorithm
5.6. Adaptive algorithms in the frequency domain
5.7. Application: controlling road noise in vehicles
Chapter 6. Design and Perfomance of Feedback Controllers
6.2. Analogue controllers
6.3. Digital controllers
6.4. Internal model control (IMC)
6.5. Optimal control in the titne domain
6.6. Optimal control in the transform domain
6.7. Multichannel feedback controllers
6.8. Robust stahility for multichannel systems
6.9. Optimal multichannel control
6.10. Application: active headrest
Chapter 7. Adaptive Feedback Controllers
7.2. Tirne-domain adaptation
7.3. Frequency-domain adaptation
7.4. Combined feedback and feedforward control
7.5. Combined analogue and digital controllers
7.6. Application: active headsets
Chapter 8. Active Control of Nonlinear Systems
8.2. Analytical descriptions of nonlinear systems
8.3. Neural networks
8.4. Adaptive feedforward control
8.5. Chaotic systems
8.6. Control of chaotic behaviour
Chapter 9. Optimisation of Transducer Location
9.1. The optilnisation problcnl
9.2. Optimisation of secondary source and error sensor location
9.3. Application of genetic algorithms
9.4. Application of simulated annealing
9.5. Practical optimisation of source location
Chapter 10. Hardware for Active Control
10.2. Anti-aliasing filters
10.3. Reconstruction filters
10.4. Filter delay
10.5. Data converters
10.6. Data quantisation
10.7. Processor requirements
10.8. Finite-precision effects
Appendix: Linear Algebra and the Description of Multichannel SystemSignal Processing for Active Control [texte imprimé] / Stephen J. Elliott, Auteur . - San Diego, London, Boston : Academic Press, 2001 . - 511 p. : couv. ill.,ill. ; 24,1 cm.. - (Signal Processing and its Applications) .
ISBN : 978-0-12-237085-4
Langues : Anglais (eng)
Index. décimale : 25-02 Théorie et traitement du signal Résumé : Signal Processing for Active Control sets out the signal processing and automatic control techniques that are used in the analysis and implementation of active systems for the control of sound and vibration. After reviewing the performance limitations introduced by physical aspects of active control, Stephen Elliott presents the calculation of the optimal performance and the implementation of adaptive real time controllers for a wide variety of active control systems.
Active sound and vibration control are technologically important problems with many applications. 'Active control' means controlling disturbance by superimposing a second disturbance on the original source of disturbance. Put simply, initial noise + other specially-generated noise or vibration = silence [or controlled noise].
This book presents a unified approach to techniques that are used in the analysis and implementation of different control systems. It includes practical examples at the end of each chapter to illustrate the use of various approaches.
This book is intended for researchers, engineers, and students in the field of acoustics, active control, signal processing, and electrical engineering.
Note de contenu : Contents
Chapter 1. The Physical Basis for Active Control
1.2. Control of wave transmission
1.3. Control of power in infinite systems
1.4. Strategies of control in finite systems
1.5. Control of energy in finite systems
1.6. Control of sound radiation from structures
1.7. Local control of sound and vibration
Chapter 2. Optimal and Adaptive Digital Filters
2.2. Structure of digital filters
2.3. Optimal filters in the time domain
2.4. Optimal filters in the transfortn Domain
2.5. Multichannel optimal filters
2.6. The LMS algorithm
2.7. The RLS algorithm
2.8. Frcquency-dornain adaptation
2.9. Adaptive IIR filters
Chapter 3. Single-Channel Feedforward Control
3.2. Control of deterministic disturbances
3.3. Optimal control of stochastic disturbances
3.4. Adaptive FIR controllers
3.5. Frequency-domain adaptation of FIR controllers
3.6. Plant identification
3.7. Adaptive IIR controllers
3.8. Practical applications
Chapter 4. Multichannel Control of Tonal Disturbances
4.2. Optinlal control of tonal disturbances
4.3. Steepest-descent algorithms
4.4. Robustness to plant uncertainties and plant tnodel errors
4.5. Iterative least-squares algorithms
4.6. Feedback control interpretation of adaptive feedforward systems
4.7. Minimisation of the maximum level at any sensor
4.8. Applications
Chapter 5. Multichannel Control of Stochastic Disturbances
5.2. Optimal control in the time domain
5.3. Optimal control in the transfom domain
5.4. Adaptive algorithms in the time domain
5.5. The preconditioned LMS algorithm
5.6. Adaptive algorithms in the frequency domain
5.7. Application: controlling road noise in vehicles
Chapter 6. Design and Perfomance of Feedback Controllers
6.2. Analogue controllers
6.3. Digital controllers
6.4. Internal model control (IMC)
6.5. Optimal control in the titne domain
6.6. Optimal control in the transform domain
6.7. Multichannel feedback controllers
6.8. Robust stahility for multichannel systems
6.9. Optimal multichannel control
6.10. Application: active headrest
Chapter 7. Adaptive Feedback Controllers
7.2. Tirne-domain adaptation
7.3. Frequency-domain adaptation
7.4. Combined feedback and feedforward control
7.5. Combined analogue and digital controllers
7.6. Application: active headsets
Chapter 8. Active Control of Nonlinear Systems
8.2. Analytical descriptions of nonlinear systems
8.3. Neural networks
8.4. Adaptive feedforward control
8.5. Chaotic systems
8.6. Control of chaotic behaviour
Chapter 9. Optimisation of Transducer Location
9.1. The optilnisation problcnl
9.2. Optimisation of secondary source and error sensor location
9.3. Application of genetic algorithms
9.4. Application of simulated annealing
9.5. Practical optimisation of source location
Chapter 10. Hardware for Active Control
10.2. Anti-aliasing filters
10.3. Reconstruction filters
10.4. Filter delay
10.5. Data converters
10.6. Data quantisation
10.7. Processor requirements
10.8. Finite-precision effects
Appendix: Linear Algebra and the Description of Multichannel SystemExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 372 25-02-21 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 372
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