Verfügbarkeit: Discrete systems and digital signal processing with MATLAB

Discrete systems and digital signal processing with MATLAB:

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Bibliographische Detailangaben
1. Verfasser:	Elali, Taan S. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, FL u.a. CRC Press 2004
Schriftenreihe:	Electrical engineering textbook series
Schlagworte:	MATLAB MATLAB - Diskretes System - Digitale Signalverarbeitung Mathematik Signal processing > Digital techniques > Mathematics Digitale Signalverarbeitung Diskretes System
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index.
Beschreibung:	667 S. Ill., graph. Darst.
ISBN:	0849310938

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Datensatz im Suchindex

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adam_text	DISCRETE SYSTEMS AND DIGITAL SIGNAL PROCESSING WITH MATLAB TAAN S. ELALI CRC PRESS BOCA RATON LONDON NEW YORK WASHINGTON, D.C. TABLE OF CONTENTS 1 SIGNAL REPRESENTATION 1 1.1 INTRODUCTION 1 1.2 WHY DO WE DISCRETIZE CONTINUOUS SYSTEMS? 2 1.3 PERIODIC AND NONPERIODIC DISCRETE SIGNALS 3 1.4 THE UNIT STEP DISCRETE SIGNAL 4 1.5 THE IMPULSE DISCRETE SIGNAL 6 1.6 THE RAMP DISCRETE SIGNAL 6 1.7 THE REAL EXPONENTIAL DISCRETE SIGNAL 7 1.8 THE SINUSOIDAL DISCRETE SIGNAL 7 1.9 THE EXPONENTIALLY MODULATED SINUSOIDAL SIGNAL 11 1.10 THE COMPLEX PERIODIC DISCRETE SIGNAL 11 1.11 THE SHIFTING OPERATION 15 1.12 REPRESENTING A DISCRETE SIGNAL USING IMPULSES 16 1.13 THE REFLECTION OPERATION 18 1.14 TIME SCALING 19 1.15 AMPLITUDE SCALING 20 1.16 EVEN AND ODD DISCRETE SIGNAL 21 1.17 DOES A DISCRETE SIGNAL HAVE A TIME CONSTANT? 23 1.18 BASIC OPERATIONS ON DISCRETE SIGNALS 25 1.18.1 MODULATION 25 1.18.2 ADDITION AND SUBTRACTION 25 1.18.3 SCALAR MULTIPLICATION 25 1.18.4 COMBINED OPERATIONS 26 1.19 ENERGY AND POWER DISCRETE SIGNALS 28 1.20 BOUNDED AND UNBOUNDED DISCRETE SIGNALS 30 1.21 SOME INSIGHTS: SIGNALS IN THE REAL WORLD 30 1.21.1 THE STEP SIGNAL 31 1.21.2 THE IMPULSE SIGNAL 31 1.21.3 THE SINUSOIDAL SIGNAL 31 1.21.4 THE RAMP SIGNAL 31 1.21.5 OTHER SIGNALS 32 1.22 END OF CHAPTER EXAMPLES 32 1.23 END OF CHAPTER PROBLEMS 50 2 THE DISCRETE SYSTEM 55 2.1 DEFINITION OF A SYSTEM 55 2.2 INPUT AND OUTPUT 55 2.3 LINEAR DISCRETE SYSTEMS 56 2.4 TIME INVARIANCE AND DISCRETE SIGNALS 58 2.5 SYSTEMS WITH MEMORY 60 2.6 CAUSAL SYSTEMS 61 2.7 THE INVERSE OF A SYSTEM 62 2.8 STABLE SYSTEM 63 2.9 CONVOLUTION 64 2.10 DIFFERENCE EQUATIONS OF PHYSICAL SYSTEMS 68 2.11 THE HOMOGENEOUS DIFFERENCE EQUATION AND ITS SOLUTION 69 2.11.1 CASE WHEN ROOTS ARE ALL DISTINCT 71 2.11.2 CASE WHEN TWO ROOTS ARE REAL AND EQUAL 72 2.11.3 CASE WHEN TWO ROOTS ARE COMPLEX 72 2.12 NONHOMOGENEOUS DIFFERENCE EQUATIONS AND THEIR SOLUTIONS 73 2.12.1 HOW DO WE FIND THE PARTICULAR SOLUTION? 75 2.13 THE STABILITY OF LINEAR DISCRETE SYSTEMS: THE CHARACTERISTIC EQUATION 75 2.13.1 STABILITY DEPENDING ON THE VALUES OF THE POLES 75 2.13.2 STABILITY FROM THE JURY TEST 76 2.14 BLOCK DIAGRAM REPRESENTATION OF LINEAR DISCRETE SYSTEMS 78 2.14.1 THE DELAY ELEMENT 79 2.14.2 THE SUMMING/SUBTRACTING JUNCTION 79 2.14.3 THE MULTIPLIER 79 2.15 FROM THE BLOCK DIAGRAM TO THE DIFFERENCE EQUATION 81 2.16 FROM THE DIFFERENCE EQUATION TO THE BLOCK DIAGRAM: A FORMAL PROCEDURE 82 2.17 THE IMPULSE RESPONSE 85 2.18 CORRELATION 87 2.18.1 CROSS-CORRELATION 87 2.18.2 AUTO-CORRELATION 89 2.19 SOME INSIGHTS 90 2.19.1 HOW CAN WE FIND THESE EIGENVALUES? 90 2.19.2 STABILITY AND EIGENVALUES 91 2.20 END OF CHAPTER EXAMPLES 91 2.21 END OF CHAPTER PROBLEMS 134 3 THE FOURIER SERIES AND THE FOURIER TRANSFORM OF DISCRETE SIGNALS 143 3.1 INTRODUCTION 143 3.2 REVIEW OF COMPLEX NUMBERS 143 3.2.1 DEFINITION 145 3.2.2 ADDITION 145 3.2.3 SUBTRACTION 145 3.2.4 MULTIPLICATION 145 3.2.5 DIVISION 146 3.2.6 FROM RECTANGULAR TO POLAR 146 3.2.7 FROM POLAR TO RECTANGULAR 146 THE FOURIER SERIES OF DISCRETE PERIODIC SIGNALS 147 THE DISCRETE SYSTEM WITH PERIODIC INPUTS: THE STEADY-STATE RESPONSE 150 3.4.1 THE GENERAL FORM FOR YSS(N) 153 THE FREQUENCY RESPONSE OF DISCRETE SYSTEMS 154 3.5.1 PROPERTIES OF THE FREQUENCY RESPONSE 157 3.5.1.1 THE PERIODICITY PROPERTY 157 3.5.1.2 THE SYMMETRY PROPERTY 157 THE FOURIER TRANSFORM OF DISCRETE SIGNALS 159 CONVERGENCE CONDITIONS 161 PROPERTIES OF THE FOURIER TRANSFORM OF DISCRETE SIGNALS 162 3.8.1 THE PERIODICITY PROPERTY 162 3.8.2 THE LINEARITY PROPERTY 162 3.8.3 THE DISCRETE-TIME SHIFTING PROPERTY 163 3.8.4 THE FREQUENCY SHIFTING PROPERTY 163 3.8.5 THE REFLECTION PROPERTY 163 3.8.6 THE CONVOLUTION PROPERTY 164 PARSEVAL S RELATION AND ENERGY CALCULATIONS 167 NUMERICAL EVALUATION OF THE FOURIER TRANSFORM OF DISCRETE SIGNALS 168 SOME INSIGHTS: WHY IS THIS FOURIER TRANSFORM? 172 3.11.1 THE EASE IN ANALYSIS AND DESIGN 172 3.11.2 SINUSOIDAL ANALYSIS 173 END OF CHAPTER EXAMPLES 173 END OF CHAPTER PROBLEMS 189 THE Z-TRANSFORM AND DISCRETE SYSTEMS 195 INTRODUCTION 195 THE BILATERAL Z-TRANSFORM 195 THE UNILATERAL Z-TRANSFORM 197 CONVERGENCE CONSIDERATIONS 200 THE INVERSE Z-TRANSFORM 203 4.5.1 PARTIAL FRACTION EXPANSION 203 4.5.2 LONG DIVISION 206 4.6 PROPERTIES OF THE Z-TRANSFORM 207 4.6.1 LINEARITY PROPERTY 207 4.6.2 SHIFTING PROPERTY 207 4.6.3 MULTIPLICATION BY E 209 4.6.4 CONVOLUTION 210 4.7 REPRESENTATION OF TRANSFER FUNCTIONS AS BLOCK DIAGRAMS 210 4.8 X(N), H(N), Y{N), AND THE Z-TRANSFORM 212 4.9 SOLVING DIFFERENCE EQUATION USING THE Z-TRANSFORM 214 4.10 CONVERGENCE REVISITED 216 4.11 THE FINAL VALUE THEOREM 219 4.12 THE INITIAL-VALUE THEOREM 219 4.13 SOME INSIGHTS: POLES AND ZEROES 220 4.13.1 THE POLES OF THE SYSTEM 220 4.13.2 THE ZEROS OF THE SYSTEM 221 4.13.3 THE STABILITY OF THE SYSTEM 221 4.14 END OF CHAPTER EXERCISES 221 4.15 END OF CHAPTER PROBLEMS 255 5 STATE-SPACE AND DISCRETE SYSTEMS 265 5.1 INTRODUCTION 265 5.2 A REVIEW ON MATRIX ALGEBRA 266 5.2.1 DEFINITION, GENERAL TERMS AND NOTATIONS 266 5.2.2 THE IDENTITY MATRIX 266 5.2.3 ADDING TWO MATRICES 267 5.2.4 SUBTRACTING TWO MATRICES 267 5.2.5 MULTIPLYING A MATRIX BY A CONSTANT 267 5.2.6 DETERMINANT OF A TWO-BY-TWO MATRIX 268 5.2.7 TRANSPOSE OF A MATRIX 268 5.2.8 INVERSE OF A MATRIX 268 5.2.9 MATRIX MULTIPLICATION 269 5.2.10 EIGENVALUES OF A MATRIX 269 5.2.11 DIAGONAL FORM OF A MATRIX 269 5.2.12 EIGENVECTORS OF A MATRIX 269 5.3 GENERAL REPRESENTATION OF SYSTEMS IN STATE-SPACE 270 5.3.1 RECURSIVE SYSTEMS 270 5.3.2 NONRECURSIVE SYSTEMS 272 5.3.3 FROM THE BLOCK DIAGRAM TO STATE-SPACE 273 5.3.4 FROM THE TRANSFER FUNCTION H(Z) TO STATE-SPACE 276 5.4 SOLUTION OF THE STATE-SPACE EQUATIONS IN THE Z-DOMAIN 283 5.5 GENERAL SOLUTION OF THE STATE EQUATION IN REAL-TIME 284 5.6 PROPERTIES OF A N AND ITS EVALUATION 285 5.7 TRANSFORMATIONS FOR STATE-SPACE REPRESENTATIONS 289 5.8 SOME INSIGHTS: POLES AND STABILITY 291 5.9 END OF CHAPTER EXAMPLES 292 5.10 END OF CHAPTER PROBLEMS 322 6 MODELING AND REPRESENTATION OF DISCRETE LINEAR SYSTEMS 329 6.1 INTRODUCTION 329 6.2 FIVE WAYS OF REPRESENTING DISCRETE LINEAR SYSTEMS 330 6.2.1 FROM THE DIFFERENCE EQUATION TO THE OTHER FOUR REPRESENTATIONS 330 6.2.1.1 THE DIFFERENCE EQUATION REPRESENTATION 330 6.2.1.2 THE IMPULSE RESPONSE REPRESENTATION 331 6.2.1.3 THE Z-TRANSFORM REPRESENTATION 332 6.2.1.4 THE STATE-SPACE REPRESENTATION 333 6.2.1.5 THE BLOCK DIAGRAM REPRESENTATION 334 6.2.2 FROM THE IMPULSE RESPONSE TO THE OTHER FOUR REPRESENTATIONS 335 6.2.2.1 THE IMPULSE RESPONSE REPRESENTATION 335 6.2.2.2 THE TRANSFER FUNCTION REPRESENTATION 335 6.2.2.3 THE DIFFERENT EQUATION REPRESENTATION 336 6.2.2.4 THE STATE-SPACE REPRESENTATION 336 6.2.2.5 THE BLOCK DIAGRAM REPRESENTATION 337 6.2.3 FROM THE TRANSFER FUNCTION TO THE OTHER FOUR REPRESENTATIONS 337 6.2.3.1 THE TRANSFER FUNCTION REPRESENTATION 337 6.2.3.2 THE IMPULSE RESPONSE REPRESENTATION 338 6.2.3.3 THE DIFFERENCE EQUATION REPRESENTATION 338 6.2.3.4 THE STATE-SPACE REPRESENTATION 339 6.2.3.5 THE BLOCK DIAGRAM REPRESENTATION 339 6.2.4 FROM THE STATE-SPACE TO THE OTHER FOUR REPRESENTATIONS 340 6.2.4.1 THE STATE-SPACE REPRESENTATION 340 6.2.4.2 THE TRANSFER FUNCTION REPRESENTATION 340 6.2.4.3 THE IMPULSE RESPONSE REPRESENTATION 341 6.2.4.4 THE DIFFERENCE EQUATION REPRESENTATION 341 6.2.4.5 THE BLOCK DIAGRAM REPRESENTATION 342 6.2.5 FROM THE BLOCK DIAGRAM TO THE OTHER FOUR REPRESENTATIONS 343 6.2.5.1 THE STATE-SPACE REPRESENTATION 343 6.2.5.2 THE TRANSFER FUNCTION REPRESENTATION 344 6.2.5.3 THE IMPULSE RESPONSE REPRESENTATION 345 6.2.5.4 THE DIFFERENCE EQUATION REPRESENTATION 345 6.3 SOME INSIGHTS: THE POLES CONSIDERING DIFFERENT OUTPUTS WITHIN THE SAME SYSTEM 346 6.4 END OF CHAPTER EXERCISES 346 6.5 END OF CHAPTER PROBLEMS 361 7 THE DISCRETE FOURIER TRANSFORM AND DISCRETE SYSTEMS 365 7.1 INTRODUCTION 365 7.2 THE DISCRETE FOURIER TRANSFORM AND THE FINITE-DURATION DISCRETE SIGNALS 366 7.3 PROPERTIES OF THE DISCRETE FOURIER TRANSFORM 367 7.3.1 HOW DOES THE DEFINING EQUATION WORK? 367 7.3.2 THE DFT SYMMETRY 368 7.3.3 THE DFT LINEARITY 370 7.3.4 THE MAGNITUDE OF THE DFT 371 7.3.5 WHAT DOES K IN X(K), THE DFT, MEAN? 372 7.4 THE RELATION THE DFT HAS WITH THE FOURIER TRANSFORM OF DISCRETE SIGNALS, THE Z-TRANSFORM AND THE CONTINUOUS FOURIER TRANSFORM 373 7.4.1 THE DFT AND THE FOURIER TRANSFORM OF X(N) 373 7.4.2 THE DFT AND THE Z-TRANSFORM OF X(N) 374 7.4.3 THE DFT AND THE CONTINUOUS FOURIER TRANSFORM OF X(T) 376 7.5 NUMERICAL COMPUTATION OF THE DFT 377 7.6 THE FAST FOURIER TRANSFORM: A FASTER WAY OF COMPUTING THE DFT 378 7.7 APPLICATIONS OF THE DFT 380 7.7.1 CIRCULAR CONVOLUTION 380 7.7.2 LINEAR CONVOLUTION 384 7.7.3 APPROXIMATION TO THE CONTINUOUS FOURIER TRANSFORM 385 7.7.4 APPROXIMATION TO THE COEFFICIENTS OF THE FOURIER SERIES AND THE AVERAGE POWER OF THE PERIODIC SIGNAL X(T) 387 7.7.5 TOTAL ENERGY IN THE SIGNAL X{N) AND X(T) 391 7.7.6 BLOCK FILTERING 393 7.7.7 CORRELATION 395 7.8 SOME INSIGHTS 395 7.8.1 THE DFT IS THE SAME AS THE FFT 395 7.8.2 THE DFT POINTS ARE THE SAMPLES OF THE FOURIER TRANSFORM OF X(N) 395 7.8.3 HOW CAN WE BE CERTAIN THAT MOST OF THE FREQUENCY CONTENTS OF X(T) ARE IN THE DFT? 395 7.8.4 IS THE CIRCULAR CONVOLUTION THE SAME AS THE LINEAR CONVOLUTION? 396 7.8.5 IS X(W) = X(K) ? 396 7.8.6 FREQUENCY LEAKAGE AND THE DFT 396 7.9 END OF CHAPTER EXERCISES 396 7.10 END OF CHAPTER PROBLEMS 415 8 ANALOGUE FILTER DESIGN 421 8.1 INTRODUCTION 421 8.2 ANALOGUE FILTER SPECIFICATIONS 422 8.3 BUTTERWORTH FILTER APPROXIMATION 425 8.4 CHEBYSHEV FILTERS 428 8.4.1 TYPE I CHEBYSHEV APPROXIMATION 428 8.4.2 INVERSE CHEBYSHEV FILTER (TYPE II CHEBYSHEV FILTERS) 431 8.5 ELLIPTIC FILTER APPROXIMATION 433 8.6 BESSEL FILTERS 434 8.7 ANALOGUE FREQUENCY TRANSFORMATION 437 8.8 ANALOGUE FILTER DESIGN USING MATLAB 438 8.8.1 ORDER ESTIMATION FUNCTIONS 439 8.8.2 ANALOGUE PROTOTYPE DESIGN FUNCTIONS 440 8.8.3 COMPLETE CLASSICAL IIR FILTER DESIGN 440 8.8.4 ANALOGUE FREQUENCY TRANSFORMATION 442 8.9 HOW DO WE FIND THE CUT-OFF FREQUENCY ANALYTICALLY? 443 8.10 LIMITATIONS 447 8.11 COMPARISON BETWEEN ANALOGUE FILTER TYPES 447 8.12 SOME INSIGHTS: FILTERS WITH HIGH GAIN VS. FILTERS WITH LOW GAIN AND THE RELATION BETWEEN THE TIME CONSTANT AND THE CUT-OFF FREQUENCY FOR FIRST-ORDER CIRCUITS AND THE SERIES RLC CIRCUIT 448 8.13 END OF CHAPTER EXAMPLES 449 8.14 END OF CHAPTER PROBLEMS 479 9 TRANSFORMATIONS BETWEEN CONTINUOUS AND DISCRETE REPRESENTATIONS 487 9.1 THE NEED FOR CONVERTING CONTINUOUS SIGNAL TO A DISCRETE SIGNAL 487 9.2 FROM THE CONTINUOUS SIGNAL TO ITS BINARY CODE REPRESENTATION ....488 9.3 FROM THE BINARY CODE TO THE CONTINUOUS SIGNAL 490 9.4 THE SAMPLING OPERATION 490 9.4.1 AMBIGUITY IN REAL-TIME DOMAIN 490 9.4.2 AMBIGUITY IN THE FREQUENCY DOMAIN 492 9.4.3 THE SAMPLING THEOREM 493 9.4.4 FILTERING BEFORE SAMPLING 494 9.4.5 SAMPLING AND RECOVERY OF THE CONTINUOUS SIGNAL 496 9.5 HOW DO WE DISCRETIZE THE DERIVATIVE OPERATION? 500 9.6 DISCRETIZATION OF THE STATE-SPACE REPRESENTATION 504 9.7 THE BILINEAR TRANSFORMATION AND THE RELATIONSHIP BETWEEN THE LAPLACE-DOMAIN AND THE Z-DOMAIN REPRESENTATIONS 506 9.8 OTHER TRANSFORMATION METHODS 512 9.8.1 IMPULSE INVARIANCE METHOD 512 9.8.2 THE STEP INVARIANCE METHOD 512 9.8.3 THE FORWARD DIFFERENCE METHOD 512 9.8.4 THE BACKWARD DIFFERENCE METHOD 512 9.8.5 THE BILINEAR TRANSFORMATION 512 9.9 SOME INSIGHTS 515 9.9.1 THE CHOICE OF THE SAMPLING INTERVAL T S 515 9.9.2 THE EFFECT OF CHOOSING T S ON THE DYNAMICS OF THE SYSTEM 515 9.9.3 DOES SAMPLING INTRODUCE ADDITIONAL ZEROS FOR THE TRANSFER FUNCTION H(Z)? 516 9.10 END OF CHAPTER EXAMPLES 517 9.11 END OF CHAPTER PROBLEMS 534 10 INFINITE IMPULSE RESPONSE (IIR) FILTER DESIGN 541 10.1 INTRODUCTION 541 10.2 THE DESIGN PROCESS 542 10.2.1 DESIGN BASED ON THE IMPULSE INVARIANCE METHOD 542 10.2.2 DESIGN BASED ON THE BILINEAR TRANSFORM METHOD 545 10.3 IIR FILTER DESIGN USING MATLAB 548 10.3.1 FROM THE ANALOGUE PROTOTYPE TO THE IIR DIGITAL FILTER 548 10.3.2 DIRECT DESIGN 548 10.4 SOME INSIGHTS 550 10.4.1 THE DIFFICULTY IN DESIGNING IIR DIGITAL FILTERS IN THE Z-DOMAIN 550 10.4.2 USING THE IMPULSE INVARIANCE METHOD 552 10.4.3 THE CHOICE OF THE SAMPLING INTERVAL T S 552 10.5 END OF CHAPTER EXAMPLES 552 10.6 END OF CHAPTER PROBLEMS 584 11 FINITE IMPULSE RESPONSE (FIR) DIGITAL FILTERS 591 11.1 INTRODUCTION 591 11.1.1 WHAT IS AN FIR DIGITAL FILTER? 591 11.1.2 A MOTIVATING EXAMPLE 591 11.2 FIR FILTER DESIGN 594 11.2.1 STABILITY OF FIR FILTERS 596 11.2.2 LINEAR PHASE OF FIR FILTERS 597 11.3 DESIGN BASED ON THE FOURIER SERIES: THE WINDOWING METHOD 598 11.3.1 IDEAL LOWPASS FIR FILTER DESIGN 599 11.3.2 OTHER IDEAL DIGITAL FIR FILTERS 601 11.3.3 WINDOWS USED IN THE DESIGN OF THE DIGITAL FIR FILTER 602 11.3.4 WHICH WINDOW GIVES THE OPTIMAL H{N)7 604 11.3.5 DESIGN OF A DIGITAL FIR DIFFERENTIATOR 605 11.3.6 DESIGN OF COMB FIR FILTERS 607 11.3.7 DESIGN OF A DIGITAL SHIFTER: THE HILBERT TRANSFORM FILTER....609 11.4 FROM IIR TO FIR DIGITAL FILTERS: AN APPROXIMATION 610 11.5 FREQUENCY SAMPLING AND FIR FILTER DESIGN 610 11.6 FIR DIGITAL DESIGN USING MATLAB 611 11.6.1 DESIGN USING WINDOWS 611 11.6.2 DESIGN USING LEAST-SQUARED ERROR 612 11.6.3 DESIGN USING THE EQUIRIPPLE LINEAR PHASE 612 11.6.4 HOW TO OBTAIN THE FREQUENCY RESPONSE 612 11.7 SOME INSIGHTS 613 11.7.1 COMPARISON WITH IIR FILTERS 613 11.7.2 THE DIFFERENT METHODS USED IN THE FIR FILTER DESIGN 613 11.8 END OF THE CHAPTER EXAMPLES 614 11.9 END OF CHAPTER PROBLEMS 644 REFERENCES 649 INDEX 651
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id	DE-604.BV017193573
illustrated	Illustrated
indexdate	2024-07-09T19:14:49Z
institution	BVB
isbn	0849310938
language	English
lccn	2003053184
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010361716
oclc_num	249356103
open_access_boolean
owner	DE-1046 DE-M347 DE-Aug4 DE-706 DE-1043 DE-634 DE-B768
owner_facet	DE-1046 DE-M347 DE-Aug4 DE-706 DE-1043 DE-634 DE-B768
physical	667 S. Ill., graph. Darst.
publishDate	2004
publishDateSearch	2004
publishDateSort	2004
publisher	CRC Press
record_format	marc
series2	Electrical engineering textbook series
spelling	Elali, Taan S. Verfasser aut Discrete systems and digital signal processing with MATLAB Taan S. Elali Boca Raton, FL u.a. CRC Press 2004 667 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electrical engineering textbook series Includes bibliographical references and index. MATLAB MATLAB - Diskretes System - Digitale Signalverarbeitung Mathematik Signal processing Digital techniques Mathematics MATLAB (DE-588)4329066-8 gnd rswk-swf Digitale Signalverarbeitung (DE-588)4113314-6 gnd rswk-swf Diskretes System (DE-588)4401225-1 gnd rswk-swf Digitale Signalverarbeitung (DE-588)4113314-6 s Diskretes System (DE-588)4401225-1 s MATLAB (DE-588)4329066-8 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010361716&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Elali, Taan S. Discrete systems and digital signal processing with MATLAB MATLAB MATLAB - Diskretes System - Digitale Signalverarbeitung Mathematik Signal processing Digital techniques Mathematics MATLAB (DE-588)4329066-8 gnd Digitale Signalverarbeitung (DE-588)4113314-6 gnd Diskretes System (DE-588)4401225-1 gnd
subject_GND	(DE-588)4329066-8 (DE-588)4113314-6 (DE-588)4401225-1
title	Discrete systems and digital signal processing with MATLAB
title_auth	Discrete systems and digital signal processing with MATLAB
title_exact_search	Discrete systems and digital signal processing with MATLAB
title_full	Discrete systems and digital signal processing with MATLAB Taan S. Elali
title_fullStr	Discrete systems and digital signal processing with MATLAB Taan S. Elali
title_full_unstemmed	Discrete systems and digital signal processing with MATLAB Taan S. Elali
title_short	Discrete systems and digital signal processing with MATLAB
title_sort	discrete systems and digital signal processing with matlab
topic	MATLAB MATLAB - Diskretes System - Digitale Signalverarbeitung Mathematik Signal processing Digital techniques Mathematics MATLAB (DE-588)4329066-8 gnd Digitale Signalverarbeitung (DE-588)4113314-6 gnd Diskretes System (DE-588)4401225-1 gnd
topic_facet	MATLAB MATLAB - Diskretes System - Digitale Signalverarbeitung Mathematik Signal processing Digital techniques Mathematics Digitale Signalverarbeitung Diskretes System
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010361716&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT elalitaans discretesystemsanddigitalsignalprocessingwithmatlab

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