בחרו את שפת העמוד:
שפה נוכחית
כניסה עם גוגל
כניסה עם פייסבוק
Signal processing for active control [electronic resource]
להגדלת הטקסט להקטנת הטקסט- ספר
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. 'Act
| כותר |
Signal processing for active control [electronic resource] / S.J. Elliot. |
|---|---|
| מוציא לאור |
San Diego, Calif. London : Academic Press |
| שנה |
c2001 |
| הערות |
Description based upon print version of record. Includes bibliographical references (p. [489]-506) and index. English |
| הערת תוכן ותקציר |
Front Cover Signal Processing for Active Control Copyright Page Contents Series Preface Dedication Preface Glossary Chapter1. The Physical Basis for Active Control 1.1.Introduction 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 2.1.Introduction 2.2.Structure of digital filters 2.3. Optimal filters in the time domain 2.4. Optimal filters in the transfortn Domain2.5.Multichannel optimal filters 2.6. The LMS algorithm 2.7. The RLS algorithm 2.8.Frcquency-dornain adaptation 2.9. Adaptive IIR filters Chapter3. Single-Channel Feedforward Control 3.1.Introduction 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 4.1. Introduction 4.2. Optinlal control of tonal disturbances4.3. 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 5.1. Introduction 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 domain5.7. Application: controlling road noise in vehicles Chapter 6. Design and Perfomance of Feedback Controllers 6.1. Introduction 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 Chapter7. Adaptive Feedback Controllers 7.1. Introduction 7.2. Tirne-domain adaptation7.3. Frequency-domain adaptation 7.4. Combined feedback and feedforward control 7.5. Combined analogue and digital controllers 7.6. Application: active headsets Chapter8. Active Control of Nonlinear Systems 8.1. Introduction 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 |
| סדרה |
Signal processing and its applications |
| היקף החומר |
1 online resource (531 p.) |
| שפה |
אנגלית |
| מספר מערכת |
997010710789305171 |
תצוגת MARC
יודעים עוד על הפריט? זיהיתם טעות?
