Verfügbarkeit: Sound and signals

Sound and signals:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Tohyama, Mikio (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2011
Schriftenreihe:	Signals and communication technology
Schlagworte:	Schallausbreitung Nachhall Schwingungsakustik Übertragungsfunktion Signalanalyse Raumakustik Akustische Signalverarbeitung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXIX, 389 S. graph. Darst.
ISBN:	9783642201219 3642201210 9783642201226

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS 1 INTRODUCTION 1 2 OSCILLATION AND RESONANCE 9 2.1 HARMONIC OSCILLATOR 9 2.1.1 MASS-SPRING SYSTEM 9 2.1.2 FREE OSCILLATION 10 2.2 FREQUENCY OF FREE OSCILLATION 12 2.2.1 POTENTIAL AND KINETIC ENERGY 12 2.2.2 ENERGY PRESERVATION LAW AND EIGENFREQUENCY 13 2.3 DAMPED OSCILLATION 13 2.3.1 MATHEMATICAL EXPRESSION FOR DAMPED OSCILLATION. 13 2.3.2 FREQUENCY OF DAMPED OSCILLATION 15 2.4 FORCED OSCILLATION AND RESONANCE 15 2.4.1 NEWTONIAN LAW FOR OSCILLATION BY EXTERNAL FORCE 15 2.4.2 OSCILLATION EXCITED BY PERIODIC FORCE OF SINGLE FREQUENCY 16 2.4.3 MAGNITUDE AND POWER RESPONSE TO SINUSOIDAL FORCE 17 2.4.4 PHASE AND POWER RESPONSE TO SINUSOIDAL FORCE 19 2.5 COUPLED OSCILLATION 20 2.5.1 OSCILLATION OF PENDULUM 21 2.5.2 EIGENFREQUENCIES OF COUPLED PENDULUM 22 2.5.3 EFFECTS OF COUPLING ON OSCILLATION 23 2.5.4 BEATS 25 2.5.5 MODULATION 25 2.5.6 VIBRATION TRANSMISSION BETWEEN A COUPLED OSCILLATOR 28 3 SIMPLE RESONATORS FOR SOUND 31 3.1 ELASTIC PROPERTIES OF GAS 31 3.1.1 DILATION AND CONDENSATION OF GAS 31 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1010287591 DIGITALISIERT DURCH IMAGE 2 VIII CONTENTS 3.1.2 STATE EQUATION OF GAS 32 3.1.3 SPECIFIC HEAT OF GAS 35 3.1.4 VOLUME AND TEMPERATURE OF GAS UNDER ADIABATIC PROCESS 36 3.1.5 BULK MODULUS OF A GAS 36 3.2 RESONATORS 37 3.2.1 HELMHOLTZ RESONATORS 37 3.2.2 ENCLOSURE OF LOUDSPEAKER 38 4 PROPAGATION OF OSCILLATION 43 4.1 PROPAGATION OF INITIAL DISTURBANCE 43 4.1.1 PROPAGATION OF OSCILLATION ENERGY 43 4.1.2 PROPAGATION OF INITIAL DISPLACEMENT THROUGH SERIES OF CONNECTED OSCILLATORS 45 4.1.3 PROPAGATION OF INITIAL VELOCITY 48 4.2 EQUATION OF WAVE PROPAGATION 50 4.2.1 SPEED OF WAVE PROPAGATION 50 4.2.2 WAVE EQUATION 51 4.2.3 PROPAGATION OF WAVE 52 5 VIBRATION OF STRING AND WAVE PROPAGATION 55 5.1 WAVE PROPAGATION OF INFINITELY LONG STRING 55 5.1.1 SPEED OF TRANSVERSAL WAVE 55 5.1.2 EQUATION OF WAVE PROPAGATION ON STRING 56 5.1.3 INITIAL DISPLACEMENT AND ITS PROPAGATION 57 5.1.4 PROPAGATION OF INITIAL VELOCITY 58 5.1.5 GENERALIZED INITIAL CONDITIONS AND PROPAGATION OF WAVES 59 5.2 BOUNDARY CONDITIONS AND HARMONIC VIBRATION 60 5.2.1 WAVE REFLECTION AT BOUNDARY 60 5.2.2 VIBRATION PATTERNS OF FINITE LENGTH OF STRING 62 5.2.3 GENERALIZED BOUNDARY CONDITIONS: END CORRECTION. 64 5.2.4 EFFECTS OF BOUNDARY CONDITIONS ON EIGENFREQUENCIES 67 5.3 DRIVING POINT IMPEDANCE OF VIBRATING STRING 68 5.3.1 DRIVING POINT IMPEDANCE OF TRAVELLING WAVE ON STRING 68 5.3.2 DRIVING POINT IMPEDANCE OF STANDING WAVE ON FINITE LENGTH OF STRING 69 5.3.3 DRIVING POINT IMPEDANCE AND POWER INJECTION FROM EXTERNAL SOURCE 70 5.3.4 DRIVING POINT IMPEDANCE AND SOURCE POSITION 71 5.3.5 POLES AND ZEROS OF DRIVING POINT IMPEDANCE 72 IMAGE 3 CONTENTS IX 5.4 PROPAGATION OF INITIAL DISTURBANCE ALONG FINITE LENGTH OF STRING 73 5.4.1 PROPAGATION OF INITIAL DISPLACEMENT 74 5.4.2 PROPAGATION OF INITIAL VELOCITY 75 5.5 IMPULSE RESPONSE AND ITS TRANSFER FUNCTION FOR VIBRATING STRING 75 5.5.1 IMPULSE RESPONSE OF FINITE LENGTH OF STRING 75 5.5.2 TRANSFER FUNCTION OF IMPULSE RESPONSE 77 5.5.3 FREQUENCY RESPONSE OF STRING VIBRATION 77 5.5.4 SPECTRAL ENVELOPE FOR FREQUENCY CHARACTERISTICS 78 5.5.5 ENERGY DECAY CURVE AND IMPULSE RESPONSE 79 5.6 EIGENFREQUENCIES AND EIGENMODES 80 5.6.1 EIGENFREQUENCIES FOR FREE VIBRATION OF FINITE LENGTH OF STRING 80 5.6.2 SUPERPOSITION OF EIGENMODES AND ITS PERIOD 81 5.6.3 EXPRESSION OF FREE VIBRATION UNDER INITIAL DISTURBANCE 83 WAVES AND SPEED OF SOUND IN THE AIR 89 6.1 PROPAGATING ENERGY AND SPEED OF SOUND 89 6.1.1 INITIAL DISTURBANCE AND PROPAGATING ENERGY 89 6.1.2 SPEED OF SOUND 90 6.2 SOUND SOURCE AND PLANE WAVES 92 6.2.1 SOUND PRESSURE AND PARTICLE VELOCITY 92 6.2.2 SOUND PRESSURE LEVEL 96 6.2.3 ENERGY OF SOUND WAVES 96 6.2.4 SOUND WAVES RADIATED BY SINUSOIDAL MOTION OF PISTON PLATE 97 6.3 SOUND SPEED AND RADIATION OF SOUND FROM VIBRATING OBJECT 98 6.3.1 RADIATION OF SOUND FROM VIBRATING WALL 98 6.3.2 RADIATION IMPEDANCE AND COINCIDENCE EFFECT 99 6.3.3 SOUND RADIATION FROM MOVING OBJECT 101 SOUND IN TUBE 103 7.1 SCHEMATIC VIEW OF WAVE PROPAGATION IN TUBE 103 7.1.1 REFLECTION WAVES AT ENDS OF TUBE 103 7.1.2 FUNDAMENTALS AND HARMONICS 105 7.2 EIGENFREQUENCIES IN ACOUSTIC TUBES 106 7.2.1 EIGENFREQUENCIES FOR OPEN-OPEN TUBE WITH CONSTANT PRESSURE SOURCE 106 7.2.2 EIGENFREQUENCIES FOR OPEN TUBE WITH CONSTANT VELOCITY SOURCE 110 7.2.3 DRIVING-POINT ACOUSTIC IMPEDANCE 112 7.2.4 TRANSFER ACOUSTIC IMPEDANCE 113 IMAGE 4 X CONTENTS 7.2.5 SOUND RADIATION FROM OPEN END OF ACOUSTIC PIPE . . 115 7.2.6 END-CORRECTION FOR ACOUSTIC OPEN PIPE 118 8 SOUND IN SPACE AS PLANE AND SPHERICAL WAVES 121 8.1 INCIDENCE AND REFLECTION OF WAVES AT BOUNDARY 121 8.1.1 REFLECTION WAVES AND HUYGENCE PRINCIPLE 122 8.1.2 FERMAT'S PRINCIPLE ON REFLECTION WAVE 122 8.1.3 BOUNDARY CONDITIONS FOR REFLECTION WAVE 123 8.1.4 REFLECTION AND TRANSMISSION COEFFICIENTS 124 8.2 REFRACTION OF TRANSMITTED WAVES FROM BOUNDARY 126 8.2.1 INCIDENT AND TRANSMITTED ANGLES 126 8.2.2 CRITICAL ANGLE OF INCIDENCE .'. 127 8.2.3 REFRACTION WAVES AND LAW OF SNELLIOUS 127 8.2.4 FERMAT'S PRINCIPLE ON REFRACTION OF WAVE 129 8.3 RADIATION OF WAVES FROM SPHERICAL SOURCE 129 8.3.1 RADIATION OF WAVES FROM IDEAL POINT SOURCE 130 8.3.2 PARTICLE VELOCITY AND SOUND PRESSURE FROM IDEAL POINT SOURCE 130 8.3.3 TRAVELLING SOUND FROM SPHERICAL SOURCE 133 8.3.4 INCOMPRESSIBILITY OF MEDIUM 134 8.4 INTERFERENCE OF WAVES 135 8.4.1 SOUND FIELD EXCITED BY TWO POINT SOURCES 135 8.4.2 SUPERPOSITION OF TWO SINUSOIDAL FUNCTIONS OF IDENTICAL FREQUENCY 136 8.4.3 INTERFERENCE BY REFLECTION WAVES 137 9 WAVE EQUATIONS AND SOUND RADIATION IN SPACE 139 9.1 WAVE EQUATION OF SPHERICAL WAVES 139 9.1.1 WAVE EQUATION FOR THREE-DIMENSIONAL WAVE 139 9.1.2 WAVE EQUATION FOR A SYMMETRIC SPHERICAL WAVE 140 9.1.3 GENERAL SOLUTION FOR SYMMETRICAL SPHERICAL WAVE . . 141 9.1.4 PROPAGATION OF INITIAL DISTURBANCE 142 9.2 SOUND POWER RADIATION FROM SOURCE 145 9.2.1 SOUND ENERGY CONVEYED BY SPHERICAL WAVE 145 9.2.2 SOUND POWER OUTPUT OF POINT SOURCE 146 9.2.3 PHASE RELATIONSHIP FOR SOUND INTENSITY BETWEEN SOUND PRESSURE AND VELOCITY 147 9.3 EFFECTS OF SURROUNDINGS ON SOUND POWER RADIATION FROM SOURCE 148 9.3.1 SOUND POWER OUTPUT AND RADIATION IMPEDANCE OF SOURCE 148 9.3.2 EFFECTS OF MIRROR IMAGE SOURCE ON RADIATION IMPEDANCE 149 9.3.3 SOUND POWER OUTPUT OF PAIR OF ANTI-PHASE SOURCES 151 IMAGE 5 CONTENTS XI 9.4 WAVE PROPAGATION AND SOUND RADIATION THROUGH ACOUSTIC HORN 153 9.4.1 RADIATION IMPEDANCE FOR CIRCULAR APERTURE IN RIGID WALL 154 9.4.2 WAVE EQUATION FOR TRAVELING WAVES IN ACOUSTIC HORN 159 9.4.3 PLANE WAVE TRAVELING IN EXPONENTIAL HORN 161 10 SOUND WAVES IN ROOMS 163 10.1 EIGENFREQUENCIES AND EIGENFUNCTIONS FOR ROOMS 163 10.1.1 HELMHOLTZ EQUATION 163 10.1.2 EIGENFREQUENCIES FOR ROOMS 164 10.1.3 NUMBER AND DENSITY OF EIGENFREQUENCIES 165 10.1.4 ORTHOGONALITY OF EIGENFUNCTIONS AND GREEN FUNCTIONS 170 10.1.5 GREEN FUNCTIONS FOR ONE-DIMENSIONAL SOUND WAVES 173 10.1.6 GREEN FUNCTION FOR THREE-DIMENSIONAL WAVE FIELD ACCORDING TO MIRROR IMAGE METHOD 174 10.1.7 IMPULSE RESPONSE OF THREE-DIMENSIONAL ROOM 178 10.2 GENERAL REPRESENTATION OF WAVES IN ROOMS 179 10.2.1 EIGENFUNCTIONS AND EIGENFREQUENCIES FOR WAVE EQUATIONS 179 10.2.2 EIGENFUNCTIONS AND ORTHOGONALITY 180 10.2.3 ORTHOGONAL EXPANSION USING EIGENFUNCTIONS 181 10.2.4 GENERAL SOLUTION OF WAVE EQUATION BY INTEGRAL FORMULA 182 10.2.5 REPRESENTATION OF BOUNDARY CONDITIONS 186 11 REVERBERATION SOUND IN ROOMS 191 11.1 SOUND ENERGY DENSITY IN ROOM 191 11.1.1 SOUND ENERGY BALANCE IN ROOM 191 11.1.2 SOUND ENERGY AT STEADY STATE 192 11.1.3 ENERGY OF DECAYING SOUND AT REVERBERATION PROCESS 193 11.1.4 SOUND FIELD REPRESENTATION USING WAVENUMBER SPACE 194 11.2 SOUND FIELD IN ROOM AS LINEAR SYSTEM 195 11.2.1 TRANSIENT AND STEADY STATE RESPONSE TO SINUSOIDAL INPUT SIGNAL 196 11.2.2 REVERBERANT RESPONSE TO SINUSOIDAL SIGNAL 197 11.2.3 REVERBERATION DECAY CURVES IN ROOMS 198 11.3 REFLECTION SOUND FROM MIRROR IMAGE SOURCES 199 11.3.1 MIRROR IMAGE SOURCES IN RECTANGULAR ROOM 199 11.3.2 COLLISION FREQUENCY OF REFLECTION SOUND 200 IMAGE 6 XII CONTENTS 11.3.3 MEAN FREE PATH FOR REFLECTION SOUND 201 11.4 REVERBERATION TIME FORMULAE 202 11.4.1 THREE-DIMENSIONAL REVERBERATION SOUND FIELD 202 11.4.2 INITIAL DECAY RATE OF REVERBERATION ENERGY 203 11.4.3 ENERGY RATIO OF DIRECT AND REVERBERATION SOUND . . . 204 11.4.4 TWO-DIMENSIONAL REVERBERATION FIELD 205 11.4.5 REVERBERATION TIME IN ALMOST-TWO-DIMENSIONAL REVERBERATION FIELD 207 11.4.6 ONE-DIMENSIONAL REVERBERATION FIELD 212 11.5 MODAL THEORETIC ANALYSIS FOR REVERBERATION PROCESS 213 11.5.1 SUPERPOSITION OF FREE OSCILLATION IN REVERBERATION DECAY 213 11.5.2 FREQUENCY CHARACTERISTICS OF REVERBERATION ENERGY DECAY CURVE 216 12 SPATIAL DISTRIBUTION OF SOUND IN ROOMS 219 12.1 CHAOTIC PROPERTIES OF SOUND RAY TRAJECTORIES IN ROOMS . . . 219 12.1.1 EXAMPLES OF SOUND RAY TRACING 219 12.1.2 DISTRIBUTION OF EIGENFREQUENCIES IN ROOMS 223 12.1.3 EIGENFREQUENCIES AND RANDOM MATRICES 226 12.2 SOUND ENERGY DISTRIBUTION IN REVERBERATION FIELD 228 12.2.1 SUPERPOSITION OF RANDOM PLANE WAVES AND SQUARED SOUND PRESSURE DISTRIBUTION 228 12.2.2 DISTRIBUTION OF SOUND PRESSURE LEVEL IN RANDOM SOUND FIELD 231 12.3 SPATIAL CORRELATION OF RANDOM SOUND FIELD 232 12.3.1 CROSS-CORRELATION FUNCTIONS FOR SOUND PRESSURE IN SINUSOIDAL WAVES IN ROOM 232 12.3.2 ANGULAR DISTRIBUTION OF WAVES IN RECTANGULAR REVERBERATION ROOM 233 12.3.3 CROSS-CORRELATION FUNCTION IN TWO-DIMENSIONAL RANDOM SOUND FIELD 237 12.3.4 EFFECT OF DIRECTION SOUND ON SPATIAL CORRELATION 239 13 R O OM TRANSFER FUNCTION 243 13.1 POWER RESPONSE OF POINT SOURCE IN ROOM 243 13.1.1 SOUND FIELD IN ROOM EXPRESSED BY MODAL FUNCTIONS 243 13.1.2 SOUND POWER RESPONSE OF SOURCE AND ENERGY BALANCE EQUATION 244 13.2 ESTIMATION OF SPACE AVERAGE FOR MEAN SQUARE SOUND PRESSURE 247 13.2.1 INCREASE OF MEAN SQUARE SOUND PRESSURE ON W A L L . . . 248 13.2.2 VARIANCES IN MEAN SQUARE SOUND PRESSURE ON WALL 250 IMAGE 7 CONTENTS XIII 13.3 ACTIVE POWER MINIMIZATION OF SOURCE 254 13.3.1 ACTIVE POWER MINIMIZATION OF SOURCE IN CLOSED SPACE 254 13.3.2 ESTIMATION OF M PR IN TERMS OF MODAL OVERLAP 258 13.4 REPRESENTATION OF TRANSFER FUNCTIONS 260 13.4.1 FREQUENCY CHARACTERISTICS FOR SINGLE-DEGREE-OF- FREEDOM SYSTEM 260 13.4.2 RESIDUES AND ZEROS OF TRANSFER FUNCTION 263 13.5 SIGN OF RESIDUES OF TRANSFER FUNCTION 268 13.5.1 TRANSFER FUNCTION PHASE FOR ONE-DIMENSIONAL WAVES 269 13.5.2 TRANSFER FUNCTION PHASE FOR TWO-DIMENSIONAL WAVES 273 13.5.3 PHASE OF TRANSFER FUNCTIONS FOR THREE-DIMENSIONAL SYSTEMS 279 13.6 COHERENT FIELD, PROPAGATION, AND REVERBERATION PHASE 281 13.6.1 COHERENT FIELD IN THREE-DIMENSIONAL REVERBERATION SPACE 281 13.6.2 COHERENT FIELD IN TWO-DIMENSIONAL REVERBERATION SPACE 283 13.6.3 COHERENT FIELD IN ONE-DIMENSIONAL REVERBERATION SPACE 286 13.7 PHASE RESPONSES AND DISTRIBUTION OF ZEROS FOR TRANSFER FUNCTIONS IN THREE-DIMENSIONAL REVERBERANT SPACE 287 13.7.1 PHASE RESPONSE AND IMPULSE RESPONSE RECORDS IN REVERBERATION ROOM AND EXPONENTIAL TIME WINDOWING 287 13.7.2 NON-MINIMUM-PHASE ZEROS AND REVERBERATION PHASE 289 13.7.3 MINIMUM-PHASE ZEROS AND PROPAGATION PHASE 298 14 REPRESENTATION OF SOUND IN TIME AND FREQUENCY PLANE 305 14.1 MAGNITUDE- OR PHASE-SPECTRAL INFORMATION FOR INTELLIGIBLE SPEECH 305 14.1.1 TEST MATERIALS AND SIGNAL PROCESSING 306 14.1.2 SPEECH INTELLIGIBILITY SCORES FOR SYNTHESIZED SPEECH MATERIALS 307 14.1.3 NARROW-BAND ENVELOPES OF SPEECH MATERIALS 309 14.1.4 RECOVERY OF NARROW-BAND ENVELOPES FROM PHASE INFORMATION UNDER LONG TIME WINDOW 310 14.1.5 ENVELOPE RECOVERY FROM PHASE FOR SHORT TIME WINDOW 313 14.1.6 RELATIONSHIP BETWEEN MAGNITUDE AND PHASE SPECTRAL COMPONENTS 316 IMAGE 8 XIV CONTENTS 14.2 SPEECH SIGNAL RECONSTRUCTION BY SPECTRAL PEAK SELECTION . . 317 14.2.1 REPRESENTATION OF SINUSOIDAL SIGNAL USING SPECTRAL PEAK SELECTION OF DISCRETE FOURIER TRANSFORM (DFT) 317 14.2.2 FUNDAMENTAL FREQUENCY ANALYSIS BY SPECTRAL PEAK SELECTION 322 14.2.3 SPEECH REPRESENTATION OF ENVELOPE MODULATION MODELING 326 14.3 CLUSTERED LINE-SPECTRAL MODELLING (CLSM) OF SOUND 328 14.3.1 FORMULATION OF CLSM 329 14.3.2 LSE SOLUTION OF SIMULTANEOUS EQUATIONS 332 14.3.3 CLSM EXAMPLES 334 14.4 CLUSTERED TIME-SEQUENCE MODELLING (CTSM) 337 14.4.1 CORRESPONDENCE BETWEEN TIME AND FREQUENCY REGIONS 337 14.4.2 FORMULATION OF CTSM 346 14.4.3 CTSM EXAMPLE 348 15 POLES, ZEROS, AND PATH INFORMATION 351 15.1 SINGLE ECHO IN SPACE 351 15.1.1 AUTO-CORRELATION SEQUENCE AND POWER SPECTRUM 351 15.1.2 ESTIMATION OF PATH INFORMATION 352 15.2 RESONANT PATH INFORMATION 353 15.2.1 SINGLE-POLE TRANSFER FUNCTION 353 15.2.2 ESTIMATION OF RESONANT FREQUENCIES FOR PATH INFORMATION 354 15.3 COMBINATION OF POLES AND ZEROS 355 15.3.1 INVERSE FILTERING 355 15.3.2 TRANSFER FUNCTION OF CLOSELY LOCATED PAIR OF POLE AND ZERO 361 15.4 CREATION AND CONTROL OF PATH INFORMATION 362 15.4.1 SIMULTANEOUS EQUATIONS FOR SOUND IMAGE CONTROL . . 362 15.4.2 STABILIZATION OF RECURSIVE PATH 364 15.4.3 DETECTION OF HOWLING FREQUENCY 366 15.5 CONTROL AND MODIFICATION OF REVERBERANT SOUND PATH 369 15.5.1 CONTROL OF REVERBERANT SOUND PATH 369 15.5.2 MODIFICATION OF PATH INFORMATION USING TIME WINDOWING 372 APPENDIX 377 RESONANCE FREQUENCY FOR DISPLACEMENT AND VELOCITY RESONANCE 377 REFERENCES 379 INDEX 385
any_adam_object	1
author	Tohyama, Mikio
author_facet	Tohyama, Mikio
author_role	aut
author_sort	Tohyama, Mikio
author_variant	m t mt
building	Verbundindex
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classification_rvk	ZN 6025 ZN 6800
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dewey-ones	621 - Applied physics 620 - Engineering and allied operations
dewey-raw	621.3828 620.2
dewey-search	621.3828 620.2
dewey-sort	3621.3828
dewey-tens	620 - Engineering and allied operations
discipline	Maschinenbau / Maschinenwesen Physik Elektrotechnik / Elektronik / Nachrichtentechnik
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id	DE-604.BV039550426
illustrated	Illustrated
indexdate	2024-07-21T00:08:11Z
institution	BVB
isbn	9783642201219 3642201210 9783642201226
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024402311
oclc_num	724965441
open_access_boolean
owner	DE-83 DE-573 DE-92 DE-634 DE-29T
owner_facet	DE-83 DE-573 DE-92 DE-634 DE-29T
physical	XXIX, 389 S. graph. Darst.
publishDate	2011
publishDateSearch	2011
publishDateSort	2011
publisher	Springer
record_format	marc
series2	Signals and communication technology
spelling	Tohyama, Mikio Verfasser aut Sound and signals Mikio Tohyama Berlin [u.a.] Springer 2011 XXIX, 389 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Signals and communication technology Schallausbreitung (DE-588)4179359-6 gnd rswk-swf Nachhall (DE-588)4171018-6 gnd rswk-swf Schwingungsakustik (DE-588)7658958-4 gnd rswk-swf Übertragungsfunktion (DE-588)4186647-2 gnd rswk-swf Signalanalyse (DE-588)4181260-8 gnd rswk-swf Raumakustik (DE-588)4048567-5 gnd rswk-swf Akustische Signalverarbeitung (DE-588)4283234-2 gnd rswk-swf Akustische Signalverarbeitung (DE-588)4283234-2 s Signalanalyse (DE-588)4181260-8 s Schallausbreitung (DE-588)4179359-6 s Raumakustik (DE-588)4048567-5 s Schwingungsakustik (DE-588)7658958-4 s Übertragungsfunktion (DE-588)4186647-2 s Nachhall (DE-588)4171018-6 s DE-604 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3677716&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024402311&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Tohyama, Mikio Sound and signals Schallausbreitung (DE-588)4179359-6 gnd Nachhall (DE-588)4171018-6 gnd Schwingungsakustik (DE-588)7658958-4 gnd Übertragungsfunktion (DE-588)4186647-2 gnd Signalanalyse (DE-588)4181260-8 gnd Raumakustik (DE-588)4048567-5 gnd Akustische Signalverarbeitung (DE-588)4283234-2 gnd
subject_GND	(DE-588)4179359-6 (DE-588)4171018-6 (DE-588)7658958-4 (DE-588)4186647-2 (DE-588)4181260-8 (DE-588)4048567-5 (DE-588)4283234-2
title	Sound and signals
title_auth	Sound and signals
title_exact_search	Sound and signals
title_full	Sound and signals Mikio Tohyama
title_fullStr	Sound and signals Mikio Tohyama
title_full_unstemmed	Sound and signals Mikio Tohyama
title_short	Sound and signals
title_sort	sound and signals
topic	Schallausbreitung (DE-588)4179359-6 gnd Nachhall (DE-588)4171018-6 gnd Schwingungsakustik (DE-588)7658958-4 gnd Übertragungsfunktion (DE-588)4186647-2 gnd Signalanalyse (DE-588)4181260-8 gnd Raumakustik (DE-588)4048567-5 gnd Akustische Signalverarbeitung (DE-588)4283234-2 gnd
topic_facet	Schallausbreitung Nachhall Schwingungsakustik Übertragungsfunktion Signalanalyse Raumakustik Akustische Signalverarbeitung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3677716&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024402311&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT tohyamamikio soundandsignals

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