Verfügbarkeit: A laser-based technique to evaluate sound generation during phonation

A laser-based technique to evaluate sound generation during phonation:

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Bibliographische Detailangaben
1. Verfasser:	Lodermeyer, Alexander (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Erlangen FAU University Press 2020
Schlagworte:	Fluid-Struktur-Wechselwirkung Particle-Image-Velocimetry Strömungsakustik Strömungsfeld Schallerzeugung Schallabstrahlung Schwingungsakustik Stimmgebung Lasermesstechnik Stimmband Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XVI, 187 Seiten Illustrationen, Diagramme 24 cm, 502 g
ISBN:	9783961472918

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Datensatz im Suchindex

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adam_text	CONTENTS NOMENCLATURE V 1 INTRODUCTION 1 1.1 STATE OF THE ART ........................................................................................... 2 1.1.1 DETERMINATION OF AEROACOUSTIC QUANTITIES ................................... 3 1.1.1.1 RECENT ADVANCES IN FLOW VELOCIMETRY .................... 3 1.1.1.2 MEASUREMENT OF THE ACOUSTIC PARTICLE VELOCITY .............. 6 1.1.1.3 CHARACTERIZATION OF AERODYNAMIC SOUND GENERATION BY CORRELATION TECHNIQUES .................................................. 8 1.1.1.4 NUMERICAL SIMULATION OF AEROACOUSTIC SOUND GENERATION 9 1.1.1.5 HYBRID APPROACH WITH PIV MEASUREMENTS .......... 10 1.1.2 SOUND GENERATION DURING PHONATION ............................................ 13 1.1.2.1 FLUID MECHANICAL ANALYSIS OF THE PHONATORY PROCESS . . 13 1.1.2.2 ACOUSTIC SOURCE ANALYSIS OF THE PHONATORY PROCESS ... 15 1.2 MOTIVATION AND OBJECTIVE ........................................................................... 17 1.3 STRUCTURE OF THE THESIS .............................................................................. 18 2 PHYSICS FUNDAMENTALS 21 2.1 FLUID MECHANICS ........................................................................................ 21 2.1.1 BERNOULLI EQUATION ........................................................................ 21 2.1.2 CONTINUITY EQUATION ..................................................................... 22 2.1.3 MOMENTUM EQUATION .................................................................. 22 2.1.4 NAVIER-STOKES EQUATION .................................................................. 23 2.2 ACOUSTICS .................................................................................................... 24 2.2.1 BASIC QUANTITIES OF ACOUSTICS ......................................................... 24 2.2.2 SIGNAL PROCESSING FUNDAMENTALS .................................................. 25 2.2.3 HOMOGENEOUS WAVE EQUATION FOR ACOUSTIC RADIATION ................... 27 2.2.4 ACOUSTIC IMPEDANCE AND RESONANCE ............................................... 28 2.3 AEROACOUSTICS .............................................................................................. 30 2.3.1 LIGHTHILL * S ANALOGY ........................................................................ 30 2.3.2 CURIE * S INTEGRAL SOLUTION ............................................................... 33 I CONTENTS 2.3.3 VORTEX SOUND .................................................................................. 33 2.3.4 PERTURBATION EQUATIONS .................................................................. 35 2.3.5 VIBROACOUSTIC SOUND GENERATION ................................................... 38 3 A HYBRID ACOUSTIC PIV APPROACH 39 3.1 PARTICLE IMAGE VELOCIMETRY ......................................................................... 40 3.1.1 BASIC PRINCIPLES OF PIV .................................................................. 41 3.1.2 PIV EVALUATION ............................................................................... 43 3.1.3 PIV PERFORMANCE, ACCURACY AND UNCERTAINTY ................................ 47 3.2 INSTANTANEOUS PRESSURE FROM PIV ............................................................ 49 3.2.1 ANALYTICAL DERIVATION OF THE PRESSURE FORMULATION ...................... 49 3.2.2 INCLUSION OF SLIGHT COMPRESSIBILITY IN THE PRESSURE FORMULATION . . 51 3.2.3 NUMERICAL IMPLEMENTATION OF THE PRESSURE FORMULATION ............. 52 3.3 VALIDATION AND APPLICATION OF THE PRESSURE SOLVER ...................................... 54 3.4 SURFACE VELOCITY OF A MOVING STRUCTURE ...................................................... 57 3.5 ACOUSTIC SOURCE TERM COMPUTATION ............................................................ 57 3.5.1 LIGHTHILL * S SOURCE TERM .................................................................. 57 3.5.2 VORTEX SOUND SOURCE TERM ............................................................ 58 3.5.3 SOURCE TERM BASED ON THE LAPLACIAN OF THE PRESSURE ................... 59 3.5.4 SOURCE TERM OF THE PERTURBED CONVECTIVE WAVE EQUATION ............. 59 3.5.5 SOURCE TERM OF THE AEROACOUSTIC WAVE EQUATION ............................ 60 3.6 SIMULATION OF THE ACOUSTIC RADIATION ......................................................... 60 3.7 CONVERSION OF THE SOUND PRESSURE INTO A THREE-DIMENSIONAL DOMAIN ... 62 3.7.1 CORRECTION OF THE SOUND PRESSURE FOR A LONG SPAN ......................... 63 3.7.2 CORRECTION OF THE SOUND PRESSURE BASED ON A CONSTANT SOUND POWER APPROACH ........................................................................................ 64 3.7.3 ACCOUNTING THE THREE-DIMENSIONAL ACOUSTIC PARTICLE VELOCITY IN THE CORRECTION APPROACH ..................................................................... 65 3.7.4 DERIVATION OF A SOURCE TERM INTENSITY MODELING FUNCTION ............. 67 4 HACOUPIV MEASUREMENTS IN A SYNTHETIC HUMAN LARYNX 69 4.1 REPLICATING PHONATION IN AN EXPERIMENTAL SETUP ...................................... 69 4.1.1 ANATOMY AND PHYSIOLOGY OF THE HUMAN LARYNX ............................ 69 4.1.2 APPLIED LARYNX MODEL .................................................................. 71 4.1.3 CONFIGURATIONS INVESTIGATED ......................................................... 74 4.2 MEASUREMENT SETUPS .................................................................................. 75 4.2.1 PARTICLE IMAGE VELOCIMETRY EXPERIMENTAL SETUP ............................ 75 4.2.2 PARTICLE IMAGE VELOCIMETRY EVALUATION ............................................ 78 4.2.3 PRESSURE MEASUREMENT .................................................................. 79 II CONTENTS 4.2.4 LASER VIBROMETRY ............................................................................ 79 4.2.5 MEASUREMENT SERIES CONDUCTED ...................................................... 80 4.2.6 COMPUTATIONAL SETUP ..................................................................... 85 5 SOUND GENERATION DURING PHONATION 91 5.1 CHARACTERIZATION OF THE BASIC EXPERIMENTAL SETUP ...................................... 91 5.1.1 ESSENTIAL PRESSURE CHARACTERISTICS .................................................. 91 5.1.2 PHASE-RESOLVED CHARACTERIZATION OF THE SUBGLOTTAL FLOW FIELD .... 99 5.2 TIME-RESOLVED FLOW FIELD ANALYSIS ............................................................... 101 5.3 DETERMINATION OF THE AEROACOUSTIC REGION OF INTEREST ............................... 104 5.4 FIRST ASSESSMENT TO SIMULATE THE SOUND RADIATION ...................................... 107 5.5 ASSESSMENT OF THE THREE-DIMENSIONAL COMPLEXITY OF THE FLOW FIELD .... ILL 5.5.1 ANALYSIS OF THE THREE-COMPONENT FLOW FIELD IN DIFFERENT CORONAL PLANES .............................................................................................. ILL 5.5.2 CHARACTERIZATION OF THE SOURCE TERM INTENSITY IN DIFFERENT CORONAL PLANES .............................................................................................. 117 5.6 INSTANTANEOUS PRESSURE AND DENSITY DEVOLUTION ......................................... 124 5.7 SOUND RADIATION INTO THE FAR FIELD ............................................................... 126 5.7.1 ASSESSMENT OF THE 3D CORRECTION .................................................. 127 5.7.2 EVALUATION OF ACOUSTIC SOURCE TERM FORMULATIONS ......................... 129 5.8 AERO ACOUSTIC SOURCE FIELD ANALYSIS ............................................................... 137 5.8.1 AEROACOUSTIC CHARACTERIZATION OF NORMAL PHONATION ................... 139 5.8.2 AEROACOUSTIC CHARACTERIZATION OF GLOTTIS CLOSURE INSUFFICIENCY . . . 143 5.9 VIBROACOUSTIC SOUND GENERATION DURING PHONATION .................................... 149 5.9.1 SURFACE MOTION OF THE VOCAL FOLDS .................................................. 150 5.9.2 PRELIMINARY INVESTIGATION OF VIBROACOUSTIC SOUND GENERATION DUR ING PHONATION .................................................................. 158 6 CONCLUSIONS AND OUTLOOK 163 BIBLIOGRAPHY 167 III
adam_txt	CONTENTS NOMENCLATURE V 1 INTRODUCTION 1 1.1 STATE OF THE ART . 2 1.1.1 DETERMINATION OF AEROACOUSTIC QUANTITIES . 3 1.1.1.1 RECENT ADVANCES IN FLOW VELOCIMETRY . 3 1.1.1.2 MEASUREMENT OF THE ACOUSTIC PARTICLE VELOCITY . 6 1.1.1.3 CHARACTERIZATION OF AERODYNAMIC SOUND GENERATION BY CORRELATION TECHNIQUES . 8 1.1.1.4 NUMERICAL SIMULATION OF AEROACOUSTIC SOUND GENERATION 9 1.1.1.5 HYBRID APPROACH WITH PIV MEASUREMENTS . 10 1.1.2 SOUND GENERATION DURING PHONATION . 13 1.1.2.1 FLUID MECHANICAL ANALYSIS OF THE PHONATORY PROCESS . . 13 1.1.2.2 ACOUSTIC SOURCE ANALYSIS OF THE PHONATORY PROCESS . 15 1.2 MOTIVATION AND OBJECTIVE . 17 1.3 STRUCTURE OF THE THESIS . 18 2 PHYSICS FUNDAMENTALS 21 2.1 FLUID MECHANICS . 21 2.1.1 BERNOULLI EQUATION . 21 2.1.2 CONTINUITY EQUATION . 22 2.1.3 MOMENTUM EQUATION . 22 2.1.4 NAVIER-STOKES EQUATION . 23 2.2 ACOUSTICS . 24 2.2.1 BASIC QUANTITIES OF ACOUSTICS . 24 2.2.2 SIGNAL PROCESSING FUNDAMENTALS . 25 2.2.3 HOMOGENEOUS WAVE EQUATION FOR ACOUSTIC RADIATION . 27 2.2.4 ACOUSTIC IMPEDANCE AND RESONANCE . 28 2.3 AEROACOUSTICS . 30 2.3.1 LIGHTHILL * S ANALOGY . 30 2.3.2 CURIE * S INTEGRAL SOLUTION . 33 I CONTENTS 2.3.3 VORTEX SOUND . 33 2.3.4 PERTURBATION EQUATIONS . 35 2.3.5 VIBROACOUSTIC SOUND GENERATION . 38 3 A HYBRID ACOUSTIC PIV APPROACH 39 3.1 PARTICLE IMAGE VELOCIMETRY . 40 3.1.1 BASIC PRINCIPLES OF PIV . 41 3.1.2 PIV EVALUATION . 43 3.1.3 PIV PERFORMANCE, ACCURACY AND UNCERTAINTY . 47 3.2 INSTANTANEOUS PRESSURE FROM PIV . 49 3.2.1 ANALYTICAL DERIVATION OF THE PRESSURE FORMULATION . 49 3.2.2 INCLUSION OF SLIGHT COMPRESSIBILITY IN THE PRESSURE FORMULATION . . 51 3.2.3 NUMERICAL IMPLEMENTATION OF THE PRESSURE FORMULATION . 52 3.3 VALIDATION AND APPLICATION OF THE PRESSURE SOLVER . 54 3.4 SURFACE VELOCITY OF A MOVING STRUCTURE . 57 3.5 ACOUSTIC SOURCE TERM COMPUTATION . 57 3.5.1 LIGHTHILL * S SOURCE TERM . 57 3.5.2 VORTEX SOUND SOURCE TERM . 58 3.5.3 SOURCE TERM BASED ON THE LAPLACIAN OF THE PRESSURE . 59 3.5.4 SOURCE TERM OF THE PERTURBED CONVECTIVE WAVE EQUATION . 59 3.5.5 SOURCE TERM OF THE AEROACOUSTIC WAVE EQUATION . 60 3.6 SIMULATION OF THE ACOUSTIC RADIATION . 60 3.7 CONVERSION OF THE SOUND PRESSURE INTO A THREE-DIMENSIONAL DOMAIN . 62 3.7.1 CORRECTION OF THE SOUND PRESSURE FOR A LONG SPAN . 63 3.7.2 CORRECTION OF THE SOUND PRESSURE BASED ON A CONSTANT SOUND POWER APPROACH . 64 3.7.3 ACCOUNTING THE THREE-DIMENSIONAL ACOUSTIC PARTICLE VELOCITY IN THE CORRECTION APPROACH . 65 3.7.4 DERIVATION OF A SOURCE TERM INTENSITY MODELING FUNCTION . 67 4 HACOUPIV MEASUREMENTS IN A SYNTHETIC HUMAN LARYNX 69 4.1 REPLICATING PHONATION IN AN EXPERIMENTAL SETUP . 69 4.1.1 ANATOMY AND PHYSIOLOGY OF THE HUMAN LARYNX . 69 4.1.2 APPLIED LARYNX MODEL . 71 4.1.3 CONFIGURATIONS INVESTIGATED . 74 4.2 MEASUREMENT SETUPS . 75 4.2.1 PARTICLE IMAGE VELOCIMETRY EXPERIMENTAL SETUP . 75 4.2.2 PARTICLE IMAGE VELOCIMETRY EVALUATION . 78 4.2.3 PRESSURE MEASUREMENT . 79 II CONTENTS 4.2.4 LASER VIBROMETRY . 79 4.2.5 MEASUREMENT SERIES CONDUCTED . 80 4.2.6 COMPUTATIONAL SETUP . 85 5 SOUND GENERATION DURING PHONATION 91 5.1 CHARACTERIZATION OF THE BASIC EXPERIMENTAL SETUP . 91 5.1.1 ESSENTIAL PRESSURE CHARACTERISTICS . 91 5.1.2 PHASE-RESOLVED CHARACTERIZATION OF THE SUBGLOTTAL FLOW FIELD . 99 5.2 TIME-RESOLVED FLOW FIELD ANALYSIS . 101 5.3 DETERMINATION OF THE AEROACOUSTIC REGION OF INTEREST . 104 5.4 FIRST ASSESSMENT TO SIMULATE THE SOUND RADIATION . 107 5.5 ASSESSMENT OF THE THREE-DIMENSIONAL COMPLEXITY OF THE FLOW FIELD . ILL 5.5.1 ANALYSIS OF THE THREE-COMPONENT FLOW FIELD IN DIFFERENT CORONAL PLANES . ILL 5.5.2 CHARACTERIZATION OF THE SOURCE TERM INTENSITY IN DIFFERENT CORONAL PLANES . 117 5.6 INSTANTANEOUS PRESSURE AND DENSITY DEVOLUTION . 124 5.7 SOUND RADIATION INTO THE FAR FIELD . 126 5.7.1 ASSESSMENT OF THE 3D CORRECTION . 127 5.7.2 EVALUATION OF ACOUSTIC SOURCE TERM FORMULATIONS . 129 5.8 AERO ACOUSTIC SOURCE FIELD ANALYSIS . 137 5.8.1 AEROACOUSTIC CHARACTERIZATION OF NORMAL PHONATION . 139 5.8.2 AEROACOUSTIC CHARACTERIZATION OF GLOTTIS CLOSURE INSUFFICIENCY . . . 143 5.9 VIBROACOUSTIC SOUND GENERATION DURING PHONATION . 149 5.9.1 SURFACE MOTION OF THE VOCAL FOLDS . 150 5.9.2 PRELIMINARY INVESTIGATION OF VIBROACOUSTIC SOUND GENERATION DUR ING PHONATION . 158 6 CONCLUSIONS AND OUTLOOK 163 BIBLIOGRAPHY 167 III
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discipline	Physik Elektrotechnik / Elektronik / Nachrichtentechnik
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genre	(DE-588)4113937-9 Hochschulschrift gnd-content
genre_facet	Hochschulschrift
id	DE-604.BV047102185
illustrated	Illustrated
index_date	2024-07-03T16:23:17Z
indexdate	2024-07-10T09:02:39Z
institution	BVB
isbn	9783961472918
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032508538
oclc_num	1151462504
open_access_boolean
owner	DE-824
owner_facet	DE-824
physical	XVI, 187 Seiten Illustrationen, Diagramme 24 cm, 502 g
publishDate	2020
publishDateSearch	2020
publishDateSort	2020
publisher	FAU University Press
record_format	marc
spelling	Lodermeyer, Alexander Verfasser (DE-588)1213048397 aut A laser-based technique to evaluate sound generation during phonation Alexander Lodermeyer Erlangen FAU University Press 2020 XVI, 187 Seiten Illustrationen, Diagramme 24 cm, 502 g txt rdacontent n rdamedia nc rdacarrier Dissertation Friedrich-Alexander-Universität Erlangen-Nürnberg 2019 Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd rswk-swf Particle-Image-Velocimetry (DE-588)4333165-8 gnd rswk-swf Strömungsakustik (DE-588)4116645-0 gnd rswk-swf Strömungsfeld (DE-588)4058078-7 gnd rswk-swf Schallerzeugung (DE-588)4179363-8 gnd rswk-swf Schallabstrahlung (DE-588)4052019-5 gnd rswk-swf Schwingungsakustik (DE-588)7658958-4 gnd rswk-swf Stimmgebung (DE-588)4547055-8 gnd rswk-swf Lasermesstechnik (DE-588)4166812-1 gnd rswk-swf Stimmband (DE-588)4211854-2 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Stimmgebung (DE-588)4547055-8 s Schallerzeugung (DE-588)4179363-8 s Particle-Image-Velocimetry (DE-588)4333165-8 s Strömungsfeld (DE-588)4058078-7 s Schallabstrahlung (DE-588)4052019-5 s Lasermesstechnik (DE-588)4166812-1 s Stimmband (DE-588)4211854-2 s Schwingungsakustik (DE-588)7658958-4 s Strömungsakustik (DE-588)4116645-0 s Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 s DE-604 B:DE-101 application/pdf https://d-nb.info/1213263476/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032508538&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p ie-sg 20200820 DE-101 https://d-nb.info/provenance/plan#ie-sg 2\p ie-sg 20200820 DE-101 https://d-nb.info/provenance/plan#ie-sg 3\p ie-sg 20200820 DE-101 https://d-nb.info/provenance/plan#ie-sg
spellingShingle	Lodermeyer, Alexander A laser-based technique to evaluate sound generation during phonation Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd Particle-Image-Velocimetry (DE-588)4333165-8 gnd Strömungsakustik (DE-588)4116645-0 gnd Strömungsfeld (DE-588)4058078-7 gnd Schallerzeugung (DE-588)4179363-8 gnd Schallabstrahlung (DE-588)4052019-5 gnd Schwingungsakustik (DE-588)7658958-4 gnd Stimmgebung (DE-588)4547055-8 gnd Lasermesstechnik (DE-588)4166812-1 gnd Stimmband (DE-588)4211854-2 gnd
subject_GND	(DE-588)4314754-9 (DE-588)4333165-8 (DE-588)4116645-0 (DE-588)4058078-7 (DE-588)4179363-8 (DE-588)4052019-5 (DE-588)7658958-4 (DE-588)4547055-8 (DE-588)4166812-1 (DE-588)4211854-2 (DE-588)4113937-9
title	A laser-based technique to evaluate sound generation during phonation
title_auth	A laser-based technique to evaluate sound generation during phonation
title_exact_search	A laser-based technique to evaluate sound generation during phonation
title_exact_search_txtP	A laser-based technique to evaluate sound generation during phonation
title_full	A laser-based technique to evaluate sound generation during phonation Alexander Lodermeyer
title_fullStr	A laser-based technique to evaluate sound generation during phonation Alexander Lodermeyer
title_full_unstemmed	A laser-based technique to evaluate sound generation during phonation Alexander Lodermeyer
title_short	A laser-based technique to evaluate sound generation during phonation
title_sort	a laser based technique to evaluate sound generation during phonation
topic	Fluid-Struktur-Wechselwirkung (DE-588)4314754-9 gnd Particle-Image-Velocimetry (DE-588)4333165-8 gnd Strömungsakustik (DE-588)4116645-0 gnd Strömungsfeld (DE-588)4058078-7 gnd Schallerzeugung (DE-588)4179363-8 gnd Schallabstrahlung (DE-588)4052019-5 gnd Schwingungsakustik (DE-588)7658958-4 gnd Stimmgebung (DE-588)4547055-8 gnd Lasermesstechnik (DE-588)4166812-1 gnd Stimmband (DE-588)4211854-2 gnd
topic_facet	Fluid-Struktur-Wechselwirkung Particle-Image-Velocimetry Strömungsakustik Strömungsfeld Schallerzeugung Schallabstrahlung Schwingungsakustik Stimmgebung Lasermesstechnik Stimmband Hochschulschrift
url	https://d-nb.info/1213263476/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032508538&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lodermeyeralexander alaserbasedtechniquetoevaluatesoundgenerationduringphonation

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