Verfügbarkeit: Digital control engineering

Digital control engineering: analysis and design

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Hauptverfasser:	Fadali, M. Sami (VerfasserIn), Visioli, Antonio (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier, Academic Press 2013
Ausgabe:	2. ed.
Schlagworte:	Digitale Regelung
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XVIII, 582 S. Ill., graph. Darst.
ISBN:	9780123943910

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Datensatz im Suchindex

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adam_text	Contents Preface , .χι CHAPTER 1 Introduction to Digital Control ............................................. ι 1.1 Why digital control? ......................................................................2 1.2 The structure of a digital control system ......................................2 1.3 Examples of digital control systems .............................................3 1.3.1 Closed-loop drag delivery system .......................................3 1.3.2 Computer control of an aircraft turbojet engine .................4 1.3.3 Control of a robotic manipulator .........................................4 Resources ...............................................................................................6 Problems ................................................................................................7 CHAPTER 2 Discrete-Time Systems ..........................................................9 2.1 Analog systems with piecewise constant inputs ...........................9 2.2 Difference equations ...................................................................11 2.3 The z-transform ...........................................................................12 2.3.1 ¿-Transforms of standard discrete-time signals .................13 2.3.2 Properties of the z-transform .............................................15 2.3.3 Inversion of the z-transform ...............................................19 2.3.4 The final value theorem .....................................................28 2.4 Computer-aided design ...............................................................29 2.5 z-Transform solution of difference equations .............................31 2.6 The time response of a discrete-time system .............................32 2.6.1 Convolution summation .....................................................32 2.6.2 The convolution theorem ...................................................34 2.7 The modified z-transform ............................................................37 2.8 Frequency response of discrete-time systems .............................39 2.8.1 Properties of the frequency response of discrete-time systems .........................................................42 2.8.2 MATLAB commands for the discrete-time frequency response .............................................................44 2.9 The sampling theorem .................................................................45 2.9.1 Selection of the sampling frequency .................................46 Resources .............................................................................................49 Problems ..............................................................................................49 Computer exercises .............................................................................52 III ¡v Contents CHAPTER 3 Modeling of Digital Control Systems ..............................55 3.1 ADC model .................................................................................55 3.2 DAC model .................................................................................56 3.3 The transfer function of the ZOH ..............................................57 3.4 Effect of the sampler on the transfer function of a cascade ......58 3.5 DAC, analog subsystem, and ADC combination transfer function ..........................................................................61 3.6 Systems with transport lag ..........................................................69 3.7 The closed-loop transfer function ...............................................71 3.8 Analog disturbances in a digital system .....................................74 3.9 Steady-state error and error constants ........................................75 3.9.1 Sampled step input ............................................................77 3.9.2 Sampled ramp input ..........................................................77 3.10 MATLAB commands .................................................................79 3.10.1 MATLAB ........................................................................79 3.10.2 Simulink ..........................................................................80 Resources .............................................................................................85 Problems ..............................................................................................85 Computer exercises .............................................................................89 CHAPTER 4 Stability of Digital Control Systems ................................91 4.1 Definitions of stability ................................................................91 4.2 Stable z-domain pole locations ...................................................93 4.3 Stability conditions .....................................................................94 4.3.1 Asymptotic stability ..........................................................94 4.3.2 BIBO stability ...................................................................95 4.3.3 Internal stability .................................................................98 4.4 Stability determination ..............................................................101 4.4.1 MATLAB ........................................................................101 4.4.2 Routh-Hurwitz criterion ..................................................102 4.5 Jury test .....................................................................................104 4.6 Nyquist criterion .......................................................................109 4.6.1 Phase margin and gain margin ........................................114 Resources ...........................................................................................123 Problems ............................................................................................123 Computer exercises ...........................................................................125 CHAPTER 5 Analog Control System Design ........................................127 5.1 Root locus .................................................................................127 5.2 Root locus using MATLAB .....................................................132 5.3 Design specifications and the effect of gain variation .............132 Contents 5.4 Root locus design ......................................................................135 5.4.1 Proportional control .........................................................137 5.4.2 PD control ........................................................................138 5.4.3 PI control ..........................................................................147 5.4.4 PID control .......................................................................153 5.5 Empirical tuning of PID controllers .........................................156 Resources ...........................................................................................161 Problems ............................................................................................161 Computer exercises ...........................................................................163 CHAPTER 6 Digital Control System Design .........................................165 6.1 г -Domain root locus ..................................................................165 6.2 z-Domain digital control system design ...................................168 6.2.1 z-Domain contours ...........................................................171 6.2.2 Proportional control design in the z-domain ...................175 6.3 Digital implementation of analog controller design .................180 6.3.1 Differencing methods .......................................................181 6.3.2 Pole-zero matching ..........................................................183 6.3.3 Bilinear transformation ....................................................186 6.3.4 Empirical digital PID controller tuning ...........................199 6.4 Direct z-domain digital controller design .................................200 6.5 Frequency response design .......................................................205 6.6 Direct control design .................................................................213 6.7 Finite settling time design .........................................................218 Resources ...........................................................................................230 Problems ............................................................................................230 Computer exercises ...........................................................................233 CHAPTER 7 State-Space Representation ..........................................235 7.1 State variables ...........................................................................235 7.2 State—space representation .......................................................238 7.2.1 State-space representation in MATLAB ........................240 7.2.2 Linear versus nonlinear state-space equations ...............240 7.3 Linearization of nonlinear state equations ................................243 7.4 The solution of linear state-space equations ...........................246 7.4.1 The Leverrier algorithm ...................................................251 7.4.2 Sylvester s expansion .......................................................255 7.4.3 The state-transition matrix for a diagonal state matrix. ..257 7.4.4 Real form for complex conjugate eigenvalues ................262 7.5 The transfer function matrix .....................................................264 7.5.1 MATLAB commands .......................................................265 vi Contents 7.6 Discrete-time state—space equations ........................................266 7.6.1 MATLAB commands for discrete-time state—space equations ......................................................269 7.6.2 Complex conjugate eigenvalues ....................................269 7.7 Solution of discrete-time state—space equations ......................271 7.7.1 z-Transform solution of discrete-time state equations ......272 7.8 z-Transfer function from state—space equations ......................277 7.8.1 z-Transfer function in MATLAB .....................................279 7.9 Similarity Transformation .........................................................279 7.9.1 Invariance of transfer functions and characteristic equations ....................................................282 Resources ...........................................................................................283 Problems ............................................................................................283 Computer exercises ...........................................................................289 CHAPTER 8 Properties of State-Space Models ...............................293 8.1 Stability of state-space realizations .........................................294 8.1.1 Asymptotic stability .......................................................294 8.1.2 BIBO stability ..................................................................297 8.2 Controllability and stabilizability ............................................301 8.2.1 MATLAB commands for controllability testing .............307 8.2.2 Controllability of systems in normal form ......................308 8.2.3 Stabilizability .................................................................309 8.3 Observability and detectability .................................................313 8.3.1 MATLAB commands .......................................................316 8.3.2 Observability of systems in normal form ........................317 8.3.3 Detectability ...................................................................317 8.4 Poles and zeros of multivariable systems .................................319 8.4.1 Poles and zeros from the transfer function matrix ..........320 8.4.2 Zeros from state—space models ....................................323 8.5 State—space realizations ...........................................................325 8.5.1 Controllable canonical realization ...................................326 8.5.2 Controllable form in MATLAB .....................................330 8.5.3 Parallel realization .........................................................331 8.5.4 Observable form ...............................................................336 8.6 Duality ...........................................................................................338 8.7 Hankel realization ..................................................................339 Resources ...........................................................................................343 Problems ............................................................................................344 Computer exercises ...........................................................................349 Contents vii CHAPTER 9 State Feedback Control .....................................................351 9.1 State and output feedback .........................................................351 9.2 Pole placement ...........................................................................353 9.2.1 Pole placement by transformation to controllable form ..............................................................356 9.2.2 Pole placement using a matrix polynomial .....................357 9.2.3 Choice of the closed-loop eigenvalues ............................359 9.2.4 MATLAB commands for pole placement .......................364 9.2.5 Pole placement for multi-input systems ..........................364 9.2.6 Pole placement by output feedback .................................367 9.3 Servo problem ............................................................................367 9.4 Invariance of system zeros ........................................................372 9.5 State estimation ..........................................................................374 9.5.1 Full-order observer ...........................................................374 9.5.2 Reduced-order observer ...................................................377 9.6 Observer state feedback .............................................................380 9.6.1 Choice of observer eigenvalues .......................................383 9.7 Pole assignment using transfer functions ..................................389 Resources ...........................................................................................393 Problems ............................................................................................393 Computer exercises ...........................................................................397 CHAPTER 10 Optimal Control .....................................................................399 10.1 Optimization ..............................................................................399 10.1.1 Unconstrained optimization ...........................................400 10.1.2 Constrained optimization ...............................................402 10.2 Optimal control ..........................................................................404 10.3 The linear quadratic regulator ...................................................409 10.3.1 Free final state ...............................................................410 10.4 Steady-state quadratic regulator ................................................419 10.4.1 Output quadratic regulator .............................................420 10.4.2 MATLAB solution of the steady-state regulator problem .........................................................421 10.4.3 Linear quadratic tracking controller ..............................423 10.5 Hamiltonian system ...................................................................426 10.5.1 Eigenstructure of the Hamiltonian matrix .....................429 Resources .............................................................................................433 Problems ..............................................................................................433 Computer exercises ..............................................................................436 viii Contents CHAPTER 11 Elements of Nonlinear Digital Control Systems ........439 11.1 Discretization of nonlinear systems ..........................................439 11.1.1 Extended linearization by input redefinition ................440 11.1.2 Extended linearization by input and state redefinition ............................................................442 11.1.3 Extended linearization by output differentiation ..........443 11.1.4 Extended linearization using matching conditions .......445 11.2 Nonlinear difference equations .................................................447 11.2.1 Logarithmic transformation ...........................................448 11.3 Equilibrium of nonlinear discrete-time systems .......................448 11.4 Lyapunov stability theory ..........................................................450 11.4.1 Lyapunov functions .......................................................450 11.4.2 Stability theorems ..........................................................452 11.4.3 Rate of convergence ......................................................454 11.4.4 Lyapunov stability of linear systems ............................454 11.4.5 MATLAB .......................................................................457 11.4.6 Lyapunov s linearization method ..................................458 11.4.7 Instability theorems .......................................................459 11.4.8 Estimation of the domain of attraction .........................461 11.5 Stability of analog systems with digital control .......................463 11.6 State plane analysis ...................................................................465 11.7 Discrete-time nonlinear controller design .................................470 11.7.1 Controller design using extended linearization .............470 11.7.2 Controller design based on Lyapunov stability theory ...............................................................473 11.8 Input-output stability and the small gain theorem ....................474 11.8.1 Absolute stability ...........................................................481 Resources .............................................................................................485 Problems ..............................................................................................485 Computer exercises ..............................................................................489 CHAPTER 12 Practical Issues ...................................................................491 12.1 Design of the hardware and software architecture ...................491 12.1.1 Software requirements ...................................................491 12.1.2 Selection of ADC and DAC ..........................................494 12.2 Choice of the sampling period ..................................................495 12.2.1 Antialiasing filters .........................................................495 12.2.2 Effects of quantization errors ........................................498 12.2.3 Phase delay introduced by the ZOH .............................503 Contents ix 12.3 Controller structure ....................................................................504 12.4 PID control .................................................................................507 12.4.1 Filtering the derivative action ........................................507 12.4.2 Integrator windup ...........................................................509 12.4.3 Bumpless transfer between manual and automatic mode .......................................................512 12.4.4 Incremental form ............................................................515 12.5 Sampling period switching ........................................................516 12.5.1 MATLAB commands .....................................................519 12.5.2 Dual-rate control ............................................................526 Resources .............................................................................................528 Problems ..............................................................................................529 Computer exercises ..............................................................................530 APPENDIX I Table of Laplace and ¿-transforms ...............................533 APPENDIX II Properties of the z-transform ..........................................535 APPENDIX III Review of Linear Algebra .................................................537 Index ......................................................................................................................565 DIGITAI CONTROL ENGINEERING Analysis and Design Second Edition M. SAMI FADALI ANTONIO VISION An engineering approach to the analysis and design of digital controls, with extensive use of MATLAB* and Simulink® throughout. This second edition text continues to cover the principles and applications of digital control engineering, with an emphasis on engineering design. It covers sufficient background material to be suitable for upper-level undergraduate or graduate level courses. Learning objectives, illustrative examples, and end-of-chapter exercises help the reader understand and apply the concepts, while extensive use of MATLAB and Simulink1 provide opportunities to model, design, and analyze control systems with realistic parameters. New to this edition: - A brief introduction to Simulink simulation of discrete-time systems has been added to Chapter 3 Closed-loop Ziegler-Nichols design added to Chapter 5 Pole-zero matching added to Chapter 6 - Improved explanations of the direct control design (Section 6.6) and the finite settling time design (Section 6.7) The Hankel realization has been added to Chapter 8 to provide a systematic method for multi-input-multi-output system realization A section on the eigenstructure of the Hamiltonian system has been added to Chapter 10 Input-output stability and the circle criterion added to Chapter 11 New problems, including several new computer exercises, have been included throughout the text About the authors: M. Sami Fadali is currently a professor of electrical and biomedical engineering at the University of Nevada- Reno. He has taught many courses in the control systems area including nonlinear control, linear control, and robust control. His research interests are in fault detection, fuzzy logic, and the mathematical modeling of cellular processes. He is a Senior Member of the IEEE. Antonio Visioli is currently an associate professor of automatic control at the University of Brescia. ACADEMIC PRESS An imprint of Elsevier store.elsevier.com MATLAB зпа Simulinky í Cover image © istockphoto ISBN 470-0-15-314341-0 90000 9l780123ll943910
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spelling	Fadali, M. Sami Verfasser (DE-588)171358449 aut Digital control engineering analysis and design M. Sami Fadali ; Antonio Visioli 2. ed. Amsterdam [u.a.] Elsevier, Academic Press 2013 XVIII, 582 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Digitale Regelung (DE-588)4012293-1 gnd rswk-swf Digitale Regelung (DE-588)4012293-1 s DE-604 Visioli, Antonio Verfasser (DE-588)1029565236 aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025415842&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025415842&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Fadali, M. Sami Visioli, Antonio Digital control engineering analysis and design Digitale Regelung (DE-588)4012293-1 gnd
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title	Digital control engineering analysis and design
title_auth	Digital control engineering analysis and design
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title_full	Digital control engineering analysis and design M. Sami Fadali ; Antonio Visioli
title_fullStr	Digital control engineering analysis and design M. Sami Fadali ; Antonio Visioli
title_full_unstemmed	Digital control engineering analysis and design M. Sami Fadali ; Antonio Visioli
title_short	Digital control engineering
title_sort	digital control engineering analysis and design
title_sub	analysis and design
topic	Digitale Regelung (DE-588)4012293-1 gnd
topic_facet	Digitale Regelung
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