Verfügbarkeit: Signal Processing Concepts for User Movement in Scene-Based Spatial Audio

Signal Processing Concepts for User Movement in Scene-Based Spatial Audio:

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Bibliographische Detailangaben
1. Verfasser:	Kentgens, Maximilian 1992- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker 2023
Ausgabe:	1. Auflage
Schriftenreihe:	Aachen Series on Communication Systems 3
Schlagworte:	Akustische Signalverarbeitung Akustische Kommunikation Mikrofon Array Raumakustik Signalanalyse immersive spatial audio adaptive beamforming adaptive space warping higher-order Ambisonics sound field translation sound field navigation viewpoint translation 6DoF 3DoF+ sound field extrapolation space warping Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xii, 192 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 305 g
ISBN:	9783844092141 3844092145

Internformat

MARC


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Datensatz im Suchindex

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adam_text	1 INTRODUCTION 1 1.1 MOTIVATION AND APPLICATIONS .................................................................. 1 1.2 PROBLEM STATEMENT AND LITERATURE REVIEW ........................................ 3 1.3 THESIS OUTLINE ................................................................................... 11 2 FUNDAMENTALS OF HOA SIGNAL PROCESSING 13 2.1 SPHERICAL HARMONICS AND SPHERICAL HARMONICS TRANSFORM ............ 13 2.1.1 COORDINATE SYSTEM DEFINITION ................................................. 13 2.1.2 SPHERICAL HARMONICS ................................................................ 16 2.1.3 SPHERICAL HARMONICS TRANSFORM ............................................. 18 2.1.4 WINDOWED SPHERICAL HARMONICS TRANSFORM ........................ 19 2.1.5 DISCRETE SPHERICAL HARMONICS TRANSFORM .............................. 21 2.2 HIGHER ORDER AMBISONICS ................................................................... 22 2.2.1 SPHERICAL HARMONICS-BASED DESCRIPTION OF SOUND FIELDS . . 23 2.2.2 ORDER TRUNCATION AND HIGHER-ORDER AMBISONICS ............... 25 2.2.3 STOCHASTIC SIGNAL MODELING ................................................... 27 2.2.4 SPHERICAL HARMONICS ROTATION OPERATOR .............................. 28 2.2.5 BEAMFORMING .............................................................................. 30 2.2.6 REPRODUCTION OF SOUND FIELDS .................................................. 32 2.3 BASELINE APPROACHES TO SOUND FIELD TRANSLATION ............................ 34 2.3.1 PLANE-WAVE TRANSLATION (PWT) ............................................ 35 2.3.2 VIRTUAL AMBISONICS (VA) ........................................................ 37 2.4 MEASURES AND TOOLS FOR INVESTIGATING HOA SIGNALS ........................ 39 2.4.1 INSTRUMENTAL MEASURES .............................................................. 39 2.4.2 PSYCHOACOUSTICAL ASSESSMENT .................................................. 42 2.4.3 VISUALIZATION OF LINEAR OPERATIONS ......................................... 44 3 NON-ADAPTIVE SOUND FIELD TRANSLATION 47 3.1 PLAUSIBLE SOUND FIELD TRANSLATION .................................................... 47 3.2 SPACE WARPING ...................................................................................... 48 3.2.1 WARPING INTO ................................................................................ 48 3.2.2 NATURAL EQUALIZATION FUNCTION ................................................ 49 3.2.3 ENERGY-PRESERVING EQUALIZATION FUNCTION ............................ 51 3.2.4 GENERALIZATION TO ARBITRARY DIRECTIONS ................................... 52 3.3 SPACE WARPING BASED SOUND FIELD TRANSLATION ................................ 53 3.3.1 GEOMETRIC MODEL ........................................................................ 53 3.3.2 PROPOSED TRANSLATION METHOD .................................................. 54 3.3.3 RELATION TO SOUND FIELD THEORY AND FAR FIELD APPROXIMATION 58 3.4 EVALUATION ................................................................................................ 61 3.4.1 COMPARISON OF APPROACHES: RESULTING SOUND FIELD ............. 61 3.4.2 COMPARISON OF APPROACHES: OPERATOR MATRICES ................... 66 3.4.3 ARTIFACTS OF SPACE WARPING DUE TO FINITE SH ORDER ............. 67 3.5 COMPUTATIONAL ASPECTS ........................................................................ 72 3.6 DISCUSSION ................................................................................................ 78 3.7 CHAPTER SUMMARY ................................................................................. 79 4 ADAPTIVE SOUND FIELD TRANSLATION 81 4.1 MOTIVATION ............................................................................................. 81 4.2 SIGNAL MODEL .......................................................................................... 83 4.2.1 INPUT SIGNAL MODEL .................................................................... 84 4.2.2 OUTPUT AND TARGET SIGNAL MODELS ........................................ 85 4.2.3 EXPECTED ERROR .......................................................................... 85 4.3 COVARIANCE ESTIMATION IN TIME AND FREQUENCY ................................ 86 4.4 ADAPTIVE SPACE WARPING ....................................................................... 88 4.4.1 HARD-DECISION ADAPTIVE SPACE WARPING ................................ 89 4.4.2 SOFT-DECISION ADAPTIVE SPACE WARPING .................................. 90 4.4.3 EXPECTED ERROR OF SOFT-DECISION TRANSLATION ......................... 92 4.4.4 PRIMARY-AMBIENT EXTRACTION AND COVARIANCE MATRIX DECOMPOSITION .......................................................................... 93 4.5 EVALUATION OF ADAPTIVE SPACE WARPING ................................................ 95 4.5.1 EXPERIMENTAL SETUP ................................................................. 95 4.5.2 IMPACT OF PRIMARY-TO-AMBIENT RATIO ...................................... 97 4.5.3 FILTER ANALYSIS WITH ORACLE COVARIANCE INFORMATION .............. 98 4.5.4 ADAPTIVE SPACE WARPING ANGULAR BIAS ................................... 102 4.5.5 FILTER ANALYSIS WITH ESTIMATED COVARIANCE MATRICES .... 103 4.6 ADAPTIVE BEAMFORMING .......................................................................... 104 4.6.1 REFINED PARAMETRIC SIGNAL MODEL ............................................ 104 4.6.2 PROCESSING CHAIN ........................................................................ 105 4.6.3 PRIMARY-AMBIENT EXTRACTION ERROR CONSIDERATIONS ............. 108 4.6.4 OPTIMALITY OF ADAPTIVE BEAMFORMING ......................... 109 4.6.5 PARAMETER ESTIMATION .............................................................. 109 4.7 EVALUATION OF ADAPTIVE BEAMFORMING .................................................. 112 4.7.1 FILTER ANALYSIS ........................................................................... 112 4.7.2 PARAMETER ESTIMATION .............................................................. 114 4.8 FORMAL COMPARISON OF ASW AND ABF .............................................. 114 4.8.1 PRIMARY-AMBIENT EXTRACTION .................................................. 116 4.8.2 SOUND FIELD TRANSLATION ........................................................... 120 4.9 DISCUSSION ............................................................................................... 123 4.10 CHAPTER SUMMARY ............................................................................... 128 5 PERCEPTUAL STUDY 131 5.1 OBJECTIVES .............................................................................................. 131 5.2 TEST SIGNALS ........................................................................................... 131 5.2.1 GENERATION OF INPUT AND REFERENCE SIGNALS ............................ 132 5.2.2 METHODS UNDER TEST ................................................................ 133 5.2.3 OBJECTIVE EVALUATION OF TEST CONDITIONS ............................... 134 5.3 LISTENING EXPERIMENT ......................................................................... 136 5.3.1 TEST DESIGN ................................................................................ 136 5.3.2 RESULTS ...................................................................................... 140 5.4 DISCUSSION ............................................................................................... 143 5.5 CHAPTER SUMMARY ............................................................................... 145 6 CONCLUSION 147 APPENDICES A ADDITIONAL REMARKS 153 A.1 PRACTICAL CONSIDERATIONS: SPHERICAL SAMPLING .................................. 153 B MATHEMATICAL DERIVATIONS 157 B.1 LIMIT VALUES FOR FAR-FIELD APPROXIMATIONS ....................................... 157 B.2 LIMIT VALUES OF SPHERICAL HANKEL FUNCTIONS ..................................... 158 C ADDITIONAL INVESTIGATIONS AND EXPERIMENTS 159 C.1 ROBUSTNESS OF GEOMETRIC MODEL AGAINST DISTANCE MISESTIMATION . . 159 C.2 SPACE WARPING MONTE CARLO SIMULATION ........................................... 161 C.3 ARTIFACTS OF SPACE WARPING DUE TO FINITE SH ORDER ........................ 164 C.4 CORRELATION OF INSTRUMENTAL AND SUBJECTIVE LOCALIZATION RATINGS . 166 MATHEMATICAL NOTATION & ABBREVIATIONS 169 BIBLIOGRAPHY 173 CURRICULUM VITAE 191
adam_txt	1 INTRODUCTION 1 1.1 MOTIVATION AND APPLICATIONS . 1 1.2 PROBLEM STATEMENT AND LITERATURE REVIEW . 3 1.3 THESIS OUTLINE . 11 2 FUNDAMENTALS OF HOA SIGNAL PROCESSING 13 2.1 SPHERICAL HARMONICS AND SPHERICAL HARMONICS TRANSFORM . 13 2.1.1 COORDINATE SYSTEM DEFINITION . 13 2.1.2 SPHERICAL HARMONICS . 16 2.1.3 SPHERICAL HARMONICS TRANSFORM . 18 2.1.4 WINDOWED SPHERICAL HARMONICS TRANSFORM . 19 2.1.5 DISCRETE SPHERICAL HARMONICS TRANSFORM . 21 2.2 HIGHER ORDER AMBISONICS . 22 2.2.1 SPHERICAL HARMONICS-BASED DESCRIPTION OF SOUND FIELDS . . 23 2.2.2 ORDER TRUNCATION AND HIGHER-ORDER AMBISONICS . 25 2.2.3 STOCHASTIC SIGNAL MODELING . 27 2.2.4 SPHERICAL HARMONICS ROTATION OPERATOR . 28 2.2.5 BEAMFORMING . 30 2.2.6 REPRODUCTION OF SOUND FIELDS . 32 2.3 BASELINE APPROACHES TO SOUND FIELD TRANSLATION . 34 2.3.1 PLANE-WAVE TRANSLATION (PWT) . 35 2.3.2 VIRTUAL AMBISONICS (VA) . 37 2.4 MEASURES AND TOOLS FOR INVESTIGATING HOA SIGNALS . 39 2.4.1 INSTRUMENTAL MEASURES . 39 2.4.2 PSYCHOACOUSTICAL ASSESSMENT . 42 2.4.3 VISUALIZATION OF LINEAR OPERATIONS . 44 3 NON-ADAPTIVE SOUND FIELD TRANSLATION 47 3.1 PLAUSIBLE SOUND FIELD TRANSLATION . 47 3.2 SPACE WARPING . 48 3.2.1 WARPING INTO . 48 3.2.2 NATURAL EQUALIZATION FUNCTION . 49 3.2.3 ENERGY-PRESERVING EQUALIZATION FUNCTION . 51 3.2.4 GENERALIZATION TO ARBITRARY DIRECTIONS . 52 3.3 SPACE WARPING BASED SOUND FIELD TRANSLATION . 53 3.3.1 GEOMETRIC MODEL . 53 3.3.2 PROPOSED TRANSLATION METHOD . 54 3.3.3 RELATION TO SOUND FIELD THEORY AND FAR FIELD APPROXIMATION 58 3.4 EVALUATION . 61 3.4.1 COMPARISON OF APPROACHES: RESULTING SOUND FIELD . 61 3.4.2 COMPARISON OF APPROACHES: OPERATOR MATRICES . 66 3.4.3 ARTIFACTS OF SPACE WARPING DUE TO FINITE SH ORDER . 67 3.5 COMPUTATIONAL ASPECTS . 72 3.6 DISCUSSION . 78 3.7 CHAPTER SUMMARY . 79 4 ADAPTIVE SOUND FIELD TRANSLATION 81 4.1 MOTIVATION . 81 4.2 SIGNAL MODEL . 83 4.2.1 INPUT SIGNAL MODEL . 84 4.2.2 OUTPUT AND TARGET SIGNAL MODELS . 85 4.2.3 EXPECTED ERROR . 85 4.3 COVARIANCE ESTIMATION IN TIME AND FREQUENCY . 86 4.4 ADAPTIVE SPACE WARPING . 88 4.4.1 HARD-DECISION ADAPTIVE SPACE WARPING . 89 4.4.2 SOFT-DECISION ADAPTIVE SPACE WARPING . 90 4.4.3 EXPECTED ERROR OF SOFT-DECISION TRANSLATION . 92 4.4.4 PRIMARY-AMBIENT EXTRACTION AND COVARIANCE MATRIX DECOMPOSITION . 93 4.5 EVALUATION OF ADAPTIVE SPACE WARPING . 95 4.5.1 EXPERIMENTAL SETUP . 95 4.5.2 IMPACT OF PRIMARY-TO-AMBIENT RATIO . 97 4.5.3 FILTER ANALYSIS WITH ORACLE COVARIANCE INFORMATION . 98 4.5.4 ADAPTIVE SPACE WARPING ANGULAR BIAS . 102 4.5.5 FILTER ANALYSIS WITH ESTIMATED COVARIANCE MATRICES . 103 4.6 ADAPTIVE BEAMFORMING . 104 4.6.1 REFINED PARAMETRIC SIGNAL MODEL . 104 4.6.2 PROCESSING CHAIN . 105 4.6.3 PRIMARY-AMBIENT EXTRACTION ERROR CONSIDERATIONS . 108 4.6.4 OPTIMALITY OF ADAPTIVE BEAMFORMING . 109 4.6.5 PARAMETER ESTIMATION . 109 4.7 EVALUATION OF ADAPTIVE BEAMFORMING . 112 4.7.1 FILTER ANALYSIS . 112 4.7.2 PARAMETER ESTIMATION . 114 4.8 FORMAL COMPARISON OF ASW AND ABF . 114 4.8.1 PRIMARY-AMBIENT EXTRACTION . 116 4.8.2 SOUND FIELD TRANSLATION . 120 4.9 DISCUSSION . 123 4.10 CHAPTER SUMMARY . 128 5 PERCEPTUAL STUDY 131 5.1 OBJECTIVES . 131 5.2 TEST SIGNALS . 131 5.2.1 GENERATION OF INPUT AND REFERENCE SIGNALS . 132 5.2.2 METHODS UNDER TEST . 133 5.2.3 OBJECTIVE EVALUATION OF TEST CONDITIONS . 134 5.3 LISTENING EXPERIMENT . 136 5.3.1 TEST DESIGN . 136 5.3.2 RESULTS . 140 5.4 DISCUSSION . 143 5.5 CHAPTER SUMMARY . 145 6 CONCLUSION 147 APPENDICES A ADDITIONAL REMARKS 153 A.1 PRACTICAL CONSIDERATIONS: SPHERICAL SAMPLING . 153 B MATHEMATICAL DERIVATIONS 157 B.1 LIMIT VALUES FOR FAR-FIELD APPROXIMATIONS . 157 B.2 LIMIT VALUES OF SPHERICAL HANKEL FUNCTIONS . 158 C ADDITIONAL INVESTIGATIONS AND EXPERIMENTS 159 C.1 ROBUSTNESS OF GEOMETRIC MODEL AGAINST DISTANCE MISESTIMATION . . 159 C.2 SPACE WARPING MONTE CARLO SIMULATION . 161 C.3 ARTIFACTS OF SPACE WARPING DUE TO FINITE SH ORDER . 164 C.4 CORRELATION OF INSTRUMENTAL AND SUBJECTIVE LOCALIZATION RATINGS . 166 MATHEMATICAL NOTATION & ABBREVIATIONS 169 BIBLIOGRAPHY 173 CURRICULUM VITAE 191
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author	Kentgens, Maximilian 1992-
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ctrlnum	(OCoLC)1415279707 (DE-599)DNB1299123295
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Elektrotechnik / Elektronik / Nachrichtentechnik
edition	1. Auflage
format	Thesis Book
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV049404844
illustrated	Illustrated
index_date	2024-07-03T23:04:48Z
indexdate	2024-07-10T10:06:10Z
institution	BVB
institution_GND	(DE-588)1064118135
isbn	9783844092141 3844092145
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-034732001
oclc_num	1415279707
open_access_boolean
owner	DE-83
owner_facet	DE-83
physical	xii, 192 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 305 g
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Shaker
record_format	marc
series2	Aachen Series on Communication Systems
spelling	Kentgens, Maximilian 1992- Verfasser (DE-588)1305716450 aut Signal Processing Concepts for User Movement in Scene-Based Spatial Audio Maximilian Kentgens 1. Auflage 202310 Düren Shaker 2023 xii, 192 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 305 g txt rdacontent n rdamedia nc rdacarrier Aachen Series on Communication Systems 3 Dissertation RWTH Aachen University 2023 Akustische Signalverarbeitung (DE-588)4283234-2 gnd rswk-swf Akustische Kommunikation (DE-588)4409921-6 gnd rswk-swf Mikrofon (DE-588)4139330-2 gnd rswk-swf Array (DE-588)4213727-5 gnd rswk-swf Raumakustik (DE-588)4048567-5 gnd rswk-swf Signalanalyse (DE-588)4181260-8 gnd rswk-swf immersive spatial audio adaptive beamforming adaptive space warping higher-order Ambisonics sound field translation sound field navigation viewpoint translation 6DoF 3DoF+ sound field extrapolation space warping (DE-588)4113937-9 Hochschulschrift gnd-content Raumakustik (DE-588)4048567-5 s Akustische Signalverarbeitung (DE-588)4283234-2 s Akustische Kommunikation (DE-588)4409921-6 s Signalanalyse (DE-588)4181260-8 s Mikrofon (DE-588)4139330-2 s Array (DE-588)4213727-5 s DE-604 Shaker Verlag (DE-588)1064118135 pbl DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034732001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20230812 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Kentgens, Maximilian 1992- Signal Processing Concepts for User Movement in Scene-Based Spatial Audio Akustische Signalverarbeitung (DE-588)4283234-2 gnd Akustische Kommunikation (DE-588)4409921-6 gnd Mikrofon (DE-588)4139330-2 gnd Array (DE-588)4213727-5 gnd Raumakustik (DE-588)4048567-5 gnd Signalanalyse (DE-588)4181260-8 gnd
subject_GND	(DE-588)4283234-2 (DE-588)4409921-6 (DE-588)4139330-2 (DE-588)4213727-5 (DE-588)4048567-5 (DE-588)4181260-8 (DE-588)4113937-9
title	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio
title_auth	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio
title_exact_search	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio
title_exact_search_txtP	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio
title_full	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio Maximilian Kentgens
title_fullStr	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio Maximilian Kentgens
title_full_unstemmed	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio Maximilian Kentgens
title_short	Signal Processing Concepts for User Movement in Scene-Based Spatial Audio
title_sort	signal processing concepts for user movement in scene based spatial audio
topic	Akustische Signalverarbeitung (DE-588)4283234-2 gnd Akustische Kommunikation (DE-588)4409921-6 gnd Mikrofon (DE-588)4139330-2 gnd Array (DE-588)4213727-5 gnd Raumakustik (DE-588)4048567-5 gnd Signalanalyse (DE-588)4181260-8 gnd
topic_facet	Akustische Signalverarbeitung Akustische Kommunikation Mikrofon Array Raumakustik Signalanalyse Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034732001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kentgensmaximilian signalprocessingconceptsforusermovementinscenebasedspatialaudio AT shakerverlag signalprocessingconceptsforusermovementinscenebasedspatialaudio

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