Verfügbarkeit: Acoustic signal processing for telecommunication

Acoustic signal processing for telecommunication:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Boston [u.a.] Kluwer 2000
Schriftenreihe:	The Kluwer international series in engineering and computer science 551
Schlagworte:	Adaptive signal processing Algorithms Noise control Signal processing > Digital techniques Akustische Signalverarbeitung Digitale Signalverarbeitung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 333 S. graph. Darst.
ISBN:	0792378148

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Datensatz im Suchindex

_version_	1804127901113647104
adam_text	ACOUSTIC SIGNAL PROCESSING FOR TELECOMMUNICATION EDITED BY STEVEN L. GAY BELL LABORATORIES, LUCENT TECHNOLOGIES JACOB BENESTY BELL LABORATORIES, LUCENT TECHNOLOGIES KLUWER ACADEMIC PUBLISHERS BOSTON/DORDRECHT/LONDON CONTENTS LIST OF FIGURES XI LIST OF TABLES XVIII PREFACE XIX CONTRIBUTING AUTHORS XXI 1 AN INTRODUCTION TO ACOUSTIC ECHO AND NOISE CONTROL 1 STEVEN L. GAY JACOB BENESTY 1. HUMAN PERCEPTION OF ECHOES 1 2. THE NETWORK ECHO PROBLEM 3 3. THE ACOUSTIC ECHO PROBLEM 6 4. ADAPTIVE FILTERS FOR ECHO CANCELLATION 8 4.1 THE LMS AND NLMS ALGORITHMS 9 4.2 LEAST SQUARES AND RECURSIVE LEAST SQUARES ALGORITHMS 12 5. NOISE REDUCTION 17 6. CONCLUSIONS 18 PART I MONO-CHANNEL ACOUSTIC ECHO CANCELLATION 2 THE FAST AFFINE PROJECTION ALGORITHM 23 STEVEN L. GAY 1. INTRODUCTION 23 2. THE AFFINE PROJECTION ALGORITHM 24 2.1 PROJECTIONS ONTO AN AFFINE SUBSPACE 26 2.2 CONVERGENCE AND REGULARIZATION 29 2.3 THE CONNECTION BETWEEN APA AND RECURSIVE LEAST SQUARES 29 3. FAST AFFINE PROJECTIONS 31 3.1 FAST RESIDUAL ECHO VECTOR CALCULATION 31 3.2 FAST ADAPTIVE COEFFICIENT VECTOR CALCULATION 33 VI ACOUSTIC SIGNAL PROCESSING 3.3 FAST NORMALIZED RESIDUAL ECHO VECTOR CALCULATION 3.4 THE FAP ALGORITHM 4. SIMULATIONS 5. NUMERICAL CONSIDERATIONS 6. CONCLUSIONS APPENDIX: SLIDING WINDOWED FAST RECURSIVE LEAST SQUARES 3 SUBBAND ACOUSTIC ECHO CANCELLATION USING THE FAP-RLS ALGORITHM: 47 FIXED-POINT IMPLEMENTATION ISSUES MOHAMED GHANASSI BENOIT CHAMPAGNE 1. INTRODUCTION 47 2. OVERVIEW OF FAP-BASED SUBBAND AEC SYSTEM 49 2.1 FAP-RLS ALGORITHM 50 2.2 UNIFORM DFT FILTER BANKS 53 3. SCOPE OF FIXED-POINT STUDY 54 4. FIXED-POINT IMPLEMENTATION OF FAP-RLS 55 4.1 UPDATE OF INVERSE DATA COVARIANCE MATRIX 56 4.2 UPDATE OF CORRELATION VECTOR 58 4.3 FILTERING AND ADAPTATION 58 4.4 ALGORITHM PRECISION 60 5. FIXED-POINT WOA IMPLEMENTATION 60 5.1 DFTORFFT? 60 5.2 ANALYSIS BANK 62 5.3 SYNTHESIS BANK 62 6. EVALUATION OF COMPLETE ALGORITHM 63 7. CONCLUSION 63 4 REAL-TIME IMPLEMENTATION OF THE EXACT BLOCK NLMS ALGORITHM FOR ACOUS- 67 TIC ECHO CONTROL IN HANDS-FREE TELEPHONE SYSTEMS BERNHARDH. NITSCH 1. INTRODUCTION 67 2. BLOCK PROCESSING 68 3. THE EXACT BLOCK NLMS ALGORITHM 69 4. REDUCTION OF THE SIGNAL DELAY 71 5. THE PEFBNLMS ALGORITHM 73 6. PERFORMANCE 74 7. REAL-TIME IMPLEMENTATION 77 8. CONCLUSIONS 80 5 DOUBLE-TALK DETECTION SCHEMES FOR ACOUSTIC ECHO CANCELLATION 81 TOMAS GDNSLER JACOB BENESTY STEVEN L. GAY 1. INTRODUCTION 81 2. BASICS OF AEC AND DTD 84 2.1 AEC NOTATIONS 84 2.2 THE GENERIC DTD 84 2.3 A SUGGESTION TO PERFORMANCE EVALUATION OF DTDS 85 3. DOUBLE-TALK DETECTION ALGORITHMS 86 3.1 GEIGEL ALGORITHM 86 3.2 3.3 3.4 3.5 3.6 3.7 CROSS-CORRELATION METHOD NORMALIZED CROSS-CORRELATION METHOD COHERENCE METHOD NORMALIZED CROSS-CORRELATION MATRIX TWO-PATH MODEL DTD COMBINATIONS WITH ROBUST STATISTICS DISCUSSION CONTENTS VLL 86 87 88 90 92 93 95 4. PART II MULTI-CHANNEL ACOUSTIC ECHO CANCELLATION 6 MULTI-CHANNEL SOUND, ACOUSTIC ECHO CANCELLATION, AND MULTI-CHANNEL 101 TIME-DOMAIN ADAPTIVE FILTERING JACOB BENESTY TOMAS GDNSLER PETER ENEROTH 1. INTRODUCTION 101 2. MULTI-CHANNEL IDENTIFICATION AND THE NONUNIQUENESS PROBLEM 104 3. SOME DIFFERENT SOLUTIONS FOR DECORRELATION 106 4. THE HYBRID MONO/STEREO ACOUSTIC ECHO CANCELER 108 5. MULTI-CHANNEL TIME-DOMAIN ADAPTIVE FILTERS 110 5.1 THE CLASSICAL AND FACTORIZED MULTI-CHANNEL RLS 110 5.2 THE MULTI-CHANNEL FAST RLS 112 5.3 THE MULTI-CHANNEL LMS ALGORITHM 113 5.4 THE MULTI-CHANNEL APA 116 6. DISCUSSION 118 7 MULTI-CHANNEL FREQUENCY-DOMAIN ADAPTIVE FILTERING 121 JACOB BENESTY DENNIS R. MORGAN 1. INTRODUCTION 121 2. MONO-CHANNEL FREQUENCY-DOMAIN ADAPTIVE FILTERING REVISITED 122 3. GENERALIZATION TO THE MULTI-CHANNEL CASE 127 4. APPLICATION TO ACOUSTIC ECHO CANCELLATION AND SIMULATIONS 129 5. CONCLUSIONS 131 A REAL-TIME STEREOPHONIC ACOUSTIC SUBBAND ECHO CANCELER 135 PETER ENEROTH STEVEN L. GAY TOMAS GDNSLER JACOB BENESTY 1. INTRODUCTION 136 2. ACOUSTIC ECHO CANCELER COMPONENTS 137 2.1 ADAPTIVE ALGORITHM 137 2.2 FILTERBANK DESIGN 139 2.3 RESIDUAL ECHO SUPPRESSION 145 2.4 COMPUTATIONAL COMPLEXITY 146 2.5 IMPLEMENTATION ASPECTS 147 3. SIMULATIONS 148 PART III NOISE REDUCTION TECHNIQUES WITH A SINGLE MICROPHONE 9 SUBBAND NOISE REDUCTION METHODS FOR SPEECH ENHANCEMENT 155 ERIC J. DIETHORN VIII ACOUSTIC SIGNAL PROCESSING 1. INTRODUCTION 2. WIENER FILTERING 3. SPEECH ENHANCEMENT BY SHORT-TIME SPECTRAL MODIFICATION 3.1 SHORT-TIME FOURIER ANALYSIS AND SYNTHESIS 3.2 SHORT-TIME WIENER FILTER 3.3 POWER SUBTRACTION 3.4 MAGNITUDE SUBTRACTION 3.5 PARAMETRIC WIENER FILTERING 3.6 REVIEW AND DISCUSSION 4. AVERAGING TECHNIQUES FOR ENVELOPE ESTIMATION 4.1 MOVING AVERAGE 4.2 SINGLE-POLE RECURSION 4.3 TWO-SIDED SINGLE-POLE RECURSION 4.4 NONLINEAR DATA PROCESSING 5. EXAMPLE IMPLEMENTATION 5.1 SUBBAND FILTER BANK ARCHITECTURE 5.2 A-POSTERIORI-SNR VOICE ACTIVITY DETECTOR 5.3 EXAMPLE 6. CONCLUSION PART IV MICROPHONE ARRAYS 10 SUPERDIRECTIONAL MICROPHONE ARRAYS 181 GARY W. ELKO 1. INTRODUCTION 181 2. DIFFERENTIAL MICROPHONE ARRAYS 182 3. ARRAY DIRECTIONAL GAIN 192 4. OPTIMAL ARRAYS FOR SPHERICALLY ISOTROPIC FIELDS 193 4.1 MAXIMUM GAIN FOR OMNIDIRECTIONAL MICROPHONES 193 4.2 MAXIMUM DIRECTIVITY INDEX FOR DIFFERENTIAL MICROPHONES 195 4.3 MAXIMIMUM FRONT-TO-BACK RATIO 197 4.4 MINIMUM PEAK DIRECTIONAL RESPONSE 200 4.5 BEAMWIDTH 201 5. DESIGN EXAMPLES 201 5.1 FIRST-ORDER DESIGNS 202 5.2 SECOND-ORDER DESIGNS 207 5.3 THIRD-ORDER DESIGNS 216 5.4 HIGHER-ORDER DESIGNS 221 6. OPTIMAL ARRAYS FOR CYLINDRICALLY ISOTROPIC FIELDS 222 6.1 MAXIMUM GAIN FOR OMNIDIRECTIONAL MICROPHONES 222 6.2 OPTIMAL WEIGHTS FOR MAXIMUM DIRECTIONAL GAIN 224 6.3 SOLUTION FOR OPTIMAL WEIGHTS FOR MAXIMUM FRONT-TO-BACK RATIO FOR CYLINDRICAL NOISE 225 7. SENSITIVITY TO MICROPHONE MISMATCH AND NOISE 230 8. CONCLUSIONS 233 APPENDIX: DIRECTIVITY FACTOR AND ROOM ACOUSTICS 236 11 MICROPHONE ARRAYS FOR VIDEO CAMERA STEERING 239 CONTENTS IX YITENG (ARDEN) HUANG JACOB BENESTY GARY W. ELKO 1. INTRODUCTION 239 2. TIME DELAY ESTIMATION 241 2.1 ACOUSTIC MODELS FOR THE TDE PROBLEM 242 2.2 THE GCC METHOD 243 2.3 ADAPTIVE EIGENVALUE DECOMPOSITION ALGORITHM 244 3. SOURCE LOCALIZATION 247 3.1 SOURCE LOCALIZATION PROBLEM 247 3.2 IDEAL MAXIMUM LIKELIHOOD LOCATOR 248 3.3 TRIANGULATION LOCATOR 250 3.4 THE SPHERICAL EQUATIONS 250 3.5 CLS AND SPHERICAL INTERSECTION (SX) METHODS 251 3.6 SPHERICAL INTERPOLATION (SI) LOCATOR 252 3.7 ONE STEP LEAST SQUARES (OSLS) LOCATOR 253 4. SYSTEM IMPLEMENTATION 255 5. SUMMARY 257 12 NONLINEAR, MODEL-BASED MICROPHONE ARRAY SPEECH ENHANCEMENT 261 MICHAEL S. BRANDSTEIN SCOTT M. GRIEBEL 1. INTRODUCTION 261 2. SPEECH ENHANCEMENT METHODS 263 3. NONLINEAR, MODEL-BASED PROCESSING 264 4. A MULTI-CHANNEL SPEECH ENHANCEMENT ALGORITHM 265 4.1 ALGORITHM DETAILS 266 4.2 SIMULATIONS 274 5. CONCLUSION 275 PART V VIRTUAL SOUND 13 3D AUDIO AND VIRTUAL ACOUSTICAL ENVIRONMENT SYNTHESIS 283 JIASHU CHEN 1. INTRODUCTION 283 2. SOUND LOCALIZATION CUES AND SYNTHETIC 3D AUDIO 284 2.1 INTERAURAL CUES FOR SOUND LOCALIZATION 285 2.2 HEAD-RELATED TRANSFER FUNCTION (HRTF) 286 2.3 SYNTHETIC 3D AUDIO 287 2.4 MODELING THE MEASURED HRTFS 288 3. SPATIAL FEATURE EXTRACTION AND REGULARIZATION (SFER) MODEL FOR HRTFS 290 3.1 SFER MODEL FOR HEAD-RELATED IMPULSE RESPONSE 290 3.2 TDSFER MODEL FOR MULTIPLE 3D SOUND SOURCE POSITIONING 292 4. COMPUTING ARCHITECTURES USING TDSFER MODEL 295 4.1 MULTIPLE SOURCES WITH MULTIPLE REFLECTIONS 295 4.2 SINGLE SOURCE WITH MULTIPLE REFLECTIONS 298 5. SPECIFIC ISSUES FOR VAES IMPLEMENTATION 299 6. CONCLUSIONS 299 14 VIRTUAL SOUND USING LOUDSPEAKERS: ROBUST ACOUSTIC CROSSTALK CANCELLATION 303 X ACOUSTIC SIGNAL PROCESSING DARREN B. WARD GARY W. ELKO 1. 2. 3. 4. 5. PART VI INTRODUCTION ACOUSTIC CROSSTALK CANCELLATION 2.1 PROBLEM STATEMENT 2.2 SELECTION OF THE DESIGN MATRIX ROBUSTNESS ANALYSIS 3.1 ROBUSTNESS MEASURE 3.2 ANALYSIS OF THE DESIGN MATRIX 3.3 EXAMPLE OF EAR RESPONSES 3.4 SPATIAL RESPONSES EFFECT OF LOUDSPEAKER POSITION 4.1 A ROBUST CCS DISCUSSION AND CONCLUSIONS BLIND SOURCE SEPARATION 15 AN INTRODUCTION TO BLIND SOURCE SEPARATION OF SPEECH SIGNALS JACOB BENESTY 1. 2. 3. 4. 5. INTRODUCTION THE INFORMATION MAXIMIZATION PRINCIPLE DIFFERENT STOCHASTIC GRADIENT ASCENT RULES BASED ON ME 3.1 THE INFOMAX STOCHASTIC GRADIENT ASCENT LEARNING RULE 3.2 THE NATURAL GRADIENT ALGORITHM 3.3 A NORMALIZED NATURAL GRADIENT ALGORITHM SIMULATIONS CONCLUSIONS 303 305 305 306 307 307 307 308 310 313 315 316 321 321 322 324 324 325 325 326 328 INDEX 331
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spelling	Acoustic signal processing for telecommunication ed. by Steven L. Gay ... Boston [u.a.] Kluwer 2000 XXII, 333 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier The Kluwer international series in engineering and computer science 551 Adaptive signal processing Algorithms Noise control Signal processing Digital techniques Akustische Signalverarbeitung (DE-588)4283234-2 gnd rswk-swf Digitale Signalverarbeitung (DE-588)4113314-6 gnd rswk-swf Digitale Signalverarbeitung (DE-588)4113314-6 s DE-604 Akustische Signalverarbeitung (DE-588)4283234-2 s Gay, Steven L. Sonstige oth The Kluwer international series in engineering and computer science 551 (DE-604)BV023545171 551 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008993861&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Acoustic signal processing for telecommunication The Kluwer international series in engineering and computer science Adaptive signal processing Algorithms Noise control Signal processing Digital techniques Akustische Signalverarbeitung (DE-588)4283234-2 gnd Digitale Signalverarbeitung (DE-588)4113314-6 gnd
subject_GND	(DE-588)4283234-2 (DE-588)4113314-6
title	Acoustic signal processing for telecommunication
title_auth	Acoustic signal processing for telecommunication
title_exact_search	Acoustic signal processing for telecommunication
title_full	Acoustic signal processing for telecommunication ed. by Steven L. Gay ...
title_fullStr	Acoustic signal processing for telecommunication ed. by Steven L. Gay ...
title_full_unstemmed	Acoustic signal processing for telecommunication ed. by Steven L. Gay ...
title_short	Acoustic signal processing for telecommunication
title_sort	acoustic signal processing for telecommunication
topic	Adaptive signal processing Algorithms Noise control Signal processing Digital techniques Akustische Signalverarbeitung (DE-588)4283234-2 gnd Digitale Signalverarbeitung (DE-588)4113314-6 gnd
topic_facet	Adaptive signal processing Algorithms Noise control Signal processing Digital techniques Akustische Signalverarbeitung Digitale Signalverarbeitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008993861&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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