Analysis, synthesis, and perception of musical sounds: the sound of music
Gespeichert in:
| Weitere Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York
Springer
2007
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| Schriftenreihe: | Modern acoustics and signal processing
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references (p. 313 - 319) and index |
| Beschreibung: | XXIV, 325 S. Ill., graph. Darst. 25 cm |
| ISBN: | 9780387324968 |
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| 245 | 1 | 0 | |a Analysis, synthesis, and perception of musical sounds |b the sound of music |c James W. Beauchamp, ed. |
| 264 | 1 | |a New York |b Springer |c 2007 | |
| 300 | |a XXIV, 325 S. |b Ill., graph. Darst. |c 25 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 490 | 0 | |a Modern acoustics and signal processing | |
| 500 | |a Includes bibliographical references (p. 313 - 319) and index | ||
| 650 | 7 | |a Acústica musical |2 larpcal | |
| 650 | 4 | |a Musique - Aspect physiologique | |
| 650 | 4 | |a Musique - Aspect psychologique | |
| 650 | 4 | |a Perception auditive | |
| 650 | 4 | |a Perception de la musique | |
| 650 | 7 | |a Percepção auditiva |2 larpcal | |
| 650 | 7 | |a Percepção musical |2 larpcal | |
| 650 | 7 | |a Som (música) |2 larpcal | |
| 650 | 4 | |a Musik | |
| 650 | 4 | |a Psychologie | |
| 650 | 4 | |a Musical perception | |
| 650 | 4 | |a Auditory perception | |
| 650 | 4 | |a Music |x Psychological aspects | |
| 650 | 4 | |a Acoustics | |
| 650 | 4 | |a Spectrum Analysis |x methods | |
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| adam_text | ANALYSIS, SYNTHESIS, AND PERCEPTION OF MUSICAL SOUNDS THE SOUND OF MUSIC
JAMES W. BEAUCHAMP EDITOR UNIVERSITY OF ILLINOIS AT URBANA, USA 4Y SPRI
INGER CONTENTS PREFACE VII ACKNOWLEDGMENTS XV 1. ANALYSIS AND SYNTHESIS
OF MUSICAL INSTRUMENT SOUNDS 1 JAMES W. BEAUCHAMP 1 ANALYSIS/SYNTHESIS
METHODS 2 1.1 HARMONIE FILTER BANK (PHASE VOCODER) ANALYSIS/SYNTHESIS 3
1.1.1 FREQUENCY DEVIATION AND INHARMONICITY 3 1.1.2 HETERODYNE-FILTER
ANALYSIS METHOD 5 1.1.2.1 WINDOW FUNCTIONS 5 1.1.2.2 HARMONIE ANALYSIS
LIMITS 10 1.1.2.3 SYNTHESIS FROM HARMONIE AMPLITUDES AND FREQUENCY
DEVIATIONS 12 1.1.3 SIGNAL RECONSTRUCTION (RESYNTHESIS) AND THE
BAND-PASS FILTER BANK EQUIVALENT 12 1.1.4 SAMPLED SIGNAL IMPLEMENTATION
13 1.1.4.1 ANALYSIS STEP 14 1.1.4.2 SYNTHESIS STEP 17 1.1.4.2.1
PIECEWISE CONSTANT AMPLITUDES AND FREQUENCIES 20 1.1.4.2.2 PIECEWISE
LINEAR AMPLITUDE AND FREQUENCY INTERPOLATION 20 1.1.4.2.3 PIECEWISE
QUADRATIC INTERPOLATION OF PHASES 21 1.1.4.2.4 PIECEWISE CUBIC
INTERPOLATION OF PHASES 23 1.2 SPECTRAL FREQUENCY-TRACKING METHOD 26
1.2.1 FREQUENCY-TRACKING ANALYSIS 27 1.2.2 FREQUENCY-TRACKING ALGORITHM
29 1.2.3 FUNDAMENTAL FREQUENCY (PITCH) DETECTION 33 XVIII CONTENTS 1.2.4
REDUCTION OF FREQUENCY-TRACKING ANALYSIS TO HARMONIE ANALYSIS 36 1.2.5
FREQUENCY-TRACKING SYNTHESIS 37 1.2.5.1 FREQUENCY-TRACKING ADDITIVE
SYNTHESIS 37 1.2.5.2 RESIDUAL NOISE ANALYSIS/SYNTHESIS 39 1.2.5.3
FREQUENCY-TRACKING OVERLAP-ADD SYNTHESIS 40 2 ANALYSIS RESULTS USING
SNDAN 42 2.1 ANALYSIS FILE DATA FORMATS 43 2.2 PHASE-VOCODER ANALYSIS
EXAMPLES FOR FIXED-PITCH HARMONIE MUSICAL SOUNDS 44 2.2.1 SPECTRAL
CENTROID 45 2.2.2 SPECTRAL ENVELOPES 50 2.2.3 SPECTRAL IRREGULARITY 55
2.3 PHASE-VOCODER ANALYSIS OF SOUNDS WITH INHARMONIC PARTIAIS 58 2.3.1
INHARMONICITY OF SLIGHTLY INHARMONIC SOUNDS: THE PIANO 60 2.3.2
MEASUREMENT OF TONES WITH WIDELY SPACED PARTIAIS: THECHIME 62 2.3.3
MEASUREMENT OF A SOUND WITH DENSE PARTIAIS: THE CYMBAL 66 2.3.4
SPECTROTEMPORAL INCOHERENCE 67 2.3.5 INVERSE SPECTRAL DENSITY: CYMBAL,
CHIME, AND TIMPANI 69 2.4 FREQUENCY-TRACKING ANALYSIS OF HARMONIE SOUNDS
75 2.4.1 FREQUENCY-TRACKING ANALYSIS OF STEADY HARMONIE SOUNDS 75 2.4.2
FREQUENCY-TRACKING ANALYSIS OF VIBRATO SOUNDS: THE SINGING VOICE 75
2.4.3 FREQUENCY-TRACKING ANALYSIS OF VARIABLE-PITCH SOUNDS 81 3 SUMMARY
82 REFERENCES 86 2. FUNDAMENTAL FREQUENCY TRACKING AND APPLICATIONS TO
MUSICAL SIGNAL ANALYSIS 90 JUDITH C. BROWN 1 INTRODUCTION TO MUSICAL
SIGNAL ANALYSIS IN THE FREQUENCY DOMAIN 90 2 CALCULATION OF A CONSTANT-Q
TRANSFORM FOR MUSICAL ANALYSIS 93 2.1 BACKGROUND 93 2.2 CALCULATIONS 93
2.3 RESULTS 96 CONTENTS XIX 3 MUSICAL FUNDAMENTAL-FREQUENCY TRACKING
USING A PATTERN-RECOGNITION METHOD 99 3.1 BACKGROUND 99 3.2 CALCULATIONS
100 3.3 RESULTS 101 4 HIGH-RESOLUTION FREQUENCY CALCULATION BASED ON
PHASE DIFFERENCES 103 4.1 INTRODUCTION 103 4.2 RESULTS USING THE
HIGH-RESOLUTION FREQUENCY TRACKER 104 5 APPLICATIONS OF THE
HIGH-RESOLUTION PITCH TRACKER 105 5.1 FREQUENCY RATIOS OF SPECTRAL
COMPONENTS OF MUSICAL SOUNDS 105 5.1.1 BACKGROUND 106 5.1.2 CALCULATION
107 5.1.3 RESULTS 107 5.1.3.1 CELLO 108 5.1.3.2 ALTO FLUTE 110 5.1.4
DISCUSSION 110 5.2 PERCEIVED PITCH CENTER OF BOWED STRING INSTRUMENT
VIBRATO TONES 111 5.2.1 BACKGROUND 111 5.2.2 EXPERIMENTAL METHOD 112
5.2.2.1 SOUND PRODUCTION AND MANIPULATION 112 5.2.2.2 LISTENING
EXPERIMENTS 112 5.2.3 RESULTS 113 5.2.3.1 EXPERIMENT 1:
NONPROFESSIONAL-PERFORMER LISTENERS 113 5.2.3.2 EXPERIMENT 2:
GRADUATE-LEVEL AND PROFESSIONAL VIOLINIST LISTENERS 114 5.2.3.3
EXPERIMENT 3: DETERMINATION OF JND FOR PITCH 114 6 SUMMARY AND
CONCLUSIONS 116 APPENDIX A: AN EFFICIENT ALGORITHM FOR THE CALCULATION
OF A CONSTANT-Q TRANSFORM 116 APPENDIX B: SINGLE-FRAME
APPROXIMATION*CALCULATION OF PHASE CHANGE FOR A HOP SIZE OF ONE SAMPLE
117 REFERENCES 119 3. BEYOND TRADITIONAL SAMPLING SYNTHESIS: REAL-TIME
TIMBRE MORPHING USING ADDITIVE SYNTHESIS 122 LIPPOLD HAKEN, KELLY FITZ,
AND PAUL CHRISTENSEN 1 INTRODUCTION 122 2 ADDITIVE SYNTHESIS MODEL 123
2.1 REAL-TIME SYNTHESIS 124 XX CONTENTS 2.2 ENVELOPE PARAMETER STREAMS
125 2.3 NOISE ENVELOPES 125 3 ADDITIVE SOUND ANALYSIS 125 3.1 SINUSOIDAL
ANALYSIS 125 3.2 NOISE-ENHANCED SINUSOIDAL ANALYSIS 125 3.3 SPECTRAL
REASSIGNMENT 128 3.3.1 TIME REASSIGNMENT 128 3.3.2 FREQUENCY
REASSIGNMENT 130 3.3.3 SPECTRAL-REASSIGNMENT SUMMARY 130 4 NAVIGATING
SOURCE TIMBRES: TIMBRE CONTROL SPACE 131 4.1 CREATING A NEW TIMBRE
CONTROL SPACE 135 4.2 TIMBRE CONTROL SPACE WITH MORE CONTROL DIMENSIONS
135 4.3 PRODUCING INTERMEDIATE TIMBRES: TIMBRE MORPHING 135 4.4
WEIGHTING FUNCTIONS FOR REAL-TIME MORPHING 136 4.5 TIME DILATION USING
TIME ENVELOPES 136 4.6 MORPHED ENVELOPES 137 4.7 LOW-AMPLITUDE PARTIAIS
138 5 NEW POSSIBILITIES FOR THE PERFORMER: THE CONTINUUM FINGERBOARD 139
5.1 PREVIOUS WORK 140 5.2 MECHANICAL DESIGN OF THE PLAYING SURFACE 141 6
FINAL SUMMARY 142 REFERENCES 142 4. A COMPACT AND MALLEABLE
SINES+TRANSIENTS+NOISE MODEL FOR SOUND 145 SCOTT N. LEVINE AND JULIUS O.
SMITH III 1 INTRODUCTION 145 1.1 HISTORY OF SINUSOIDAL MODELING 146 1.2
AUDIO SIGNAL MODELS FOR DATA COMPRESSION AND TRANSFORMATION 148 1.3
CHAPTER OVERVIEW 149 2 SYSTEM OVERVIEW 150 2.1 RELATED CURRENT SYSTEMS
150 2.2 TIME-FREQUENCY SEGMENTATION 151 2.3 REASONS FOR THE DIFFERENT
MODELS 151 3 MULTIRESOLUTION SINUSOIDAL MODELING 152 3.1 ANALYSIS FILTER
BANK 154 3.2 SINUSOIDAL PARAMETERS 155 3.2.1 SINUSOIDAL TRACKING 155
3.2.2 MASKING 155 3.2.3 SINUSOIDAL TRAJECTORY ELIMINATION 157 3.2.4
SINUSOIDAL TRAJECTORY QUANTIZATION 158 3.3 SWITCHED PHASE RECONSTRUCTION
158 3.3.1 CUBIC-POLYNOMIAL PHASE RECONSTRUCTION 160 CONTENTS XXI 3.3.2
PHASELESS RECONSTRUCTION 160 3.3.3 PHASE S WITCHING 161 4
TRANSFORM-CODED TRANSIENTS 161 4.1 TRANSIENT DETECTION 162 4.2 A
SIMPLIFIED TRANSFORM CODER 163 4.3 TIME-FREQUENCY PRUNING 164 5 NOISE
MODELING 164 5.1 BARK-BAND QUANTIZATION 165 5.2 LINE-SEGMENT
APPROXIMATION 166 6 APPLICATIONS 167 6.1 SINUSOIDAL TIME-SCALE
MODIFICATION 170 6.2 TRANSIENT TIME-SCALE MODIFICATION 170 6.3 NOISE
TIME-SCALE MODIFICATION 170 7 CONCLUSIONS 170 8 ACKNOWLEDGMENT 171
REFERENCES 171 5. SPECTRAL ENVELOPES AND ADDITIVE + RESIDUAL
ANALYSIS/SYNTHESIS 175 XAVIER RODET AND DIEMO SCHWARZ 1 INTRODUCTION 175
2 SPECTRAL ENVELOPES AND SOURCE-FILTER MODELS 178 2.1 SOURCE-FILTER
MODELS 178 2.2 SOURCE-FILTER MODELS REPRESENTED BY SPECTRAL ENVELOPES
181 2.3 SPECTRAL ENVELOPES AND PERCEPTION 184 2.4 SOURCE AND SPECTRUM
TILT 186 2.5 PROPERTIES OF SPECTRAL ENVELOPES 187 3 SPECTRAL ENVELOPE
ESTIMATION METHODS 188 3.1 REQUIREMENTS 190 3.2 AUTOREGRESSION SPECTRAL
ENVELOPE 190 3.2.1 DISADVANTAGE OF AR SPECTRAL ENVELOPE ESTIMATION 193
3.3 CEPSTRUM SPECTRAL ENVELOPE 194 3.3.1 DISADVANTAGES OF THE CEPSTRUM
METHOD 196 3.4 DISCRETE CEPSTRUM SPECTRAL ENVELOPE 197 3.5 IMPROVEMENTS
ON THE DISCRETE CEPSTRUM METHOD 200 3.5.1 REGULARIZATION 200 3.5.2
STOCHASTIC SMOOTHING (THE CLOUD METHOD) 200 3.5.3 NONLINEAR FREQUENCY
SCALING 202 3.6 ESTIMATION OF THE SPECTRAL ENVELOPE OF THE RESIDUAL
SIGNAL 204 4 REPRESENTATION OF SPECTRAL ENVELOPES 205 4.1 REQUIREMENTS
205 4.2 FILTER PARAMETERS 206 XXII CONTENTS 4.3 FREQUENCY DOMAIN SAMPLED
REPRESENTATION 206 4.4 GEOMETRIE REPRESENTATION 207 4.5 FORMANTS 208
4.5.1 FORMANT WAVE FUNCTIONS 208 4.5.2 BASIC FORMANTS 209 4.5.3 FUZZY
FORMANTS 209 4.5.4 DISCUSSION OF FORMANT REPRESENTATION 210 4.6
COMPARISON OF REPRESENTATIONS 210 5 TRANSCODING AND MANIPULATION OF
SPECTRAL ENVELOPES 211 5.1 TRANSCODINGS 211 5.1.1 CONVERTING FORMANTS TO
AR-FILTER COEFFICIENTS 211 5.1.2 FORMANT ESTIMATION 211 5.2
MANIPULATIONS 212 5.3 MORPHING 212 5.3.1 SHIFTING FORMANTS 213 5.3.2
SHIFTING FUZZY FORMANTS 214 5.3.3 MORPHING BETWEEN WELL-DEFINED FORMANTS
215 5.3.4 SUMMARY OF FORMANT MORPHING 215 6 SYNTHESIS WITH SPECTRAL
ENVELOPES 216 6.1 FILTER SYNTHESIS 216 6.2 ADDITIVE SYNTHESIS 217 6.3
ADDITIVE SYNTHESIS WITH THE FFT 1 METHOD 217 7 APPLICATIONS 218 7.1
CONTROLLING ADDITIVE SYNTHESIS 218 7.2 SYNTHESIS AND TRANSFORMATION OF
THE SINGING VOICE 219 8 CONCLUSIONS 220 9 SUMMARY 220 APPENDIX: LIST OF
SYMBOLS 221 REFERENCES 222 6. A COMPARISON OF WAVETABLE AND FM DATA
REDUCTION METHODS FOR RESYNTHESIS OF MUSICAL SOUNDS 228 ANDREW HOMER 1
INTRODUCTION 228 2 EVALUATION OF WAVETABLE AND FM METHODS 229 3
COMPARISON OF WAVETABLE AND FM METHODS 231 3.1 GENERALIZED WAVETABLE
MATCHING 232 3.2 WAVETABLE-INDEX MATCHING 232 3.3
WAVETABLE-INTERPOLATION MATCHING 234 3.4 FORMANT-FM MATCHING 236 3.5
DOUBLE-FM MATCHING 237 3.6 NESTED-FM MATCHING 238 4 RESULTS 240 4.1
THETRUMPET 241 CONTENTS XXIII 4.2 THE TENOR VOICE 243 4.3 THEPIPA 245 5
CONCLUSIONS 245 ACKNOWLEDGMENTS 247 REFERENCES 247 7. THE EFFECT OF
DYNAMIC ACOUSTICAL FEATURES ON MUSICAL TIMBRE 250 JOHN M. HAJDA 1
INTRODUCTION 250 2 GLOBAL TIME-ENVELOPE AND SPECTRAL PARAMETERS 251 2.1
SALIENCE OF PARTITIONED TIME SEGMENTS 251 2.2 RELATIONAL TIMBRE STUDIES
258 2.2.1 TEMPORAL ENVELOPE 260 2.2.2 SPECTRAL ENERGY DISTRIBUTION 261
2.2.3 SPECTRAL TIME VARIANCE 262 3 THE EXPERIMENTAL CONTROL OF
ACOUSTICAL VARIABLES 263 4 CONCLUSIONS AND DIRECTIONS FOR FUTURE
RESEARCH 267 REFERENCES 268 8. MENTAL REPRESENTATION OF THE TIMBRE OF
COMPLEX SOUNDS 272 SOPHIE DONNADIEU 1 TIMBRE: A PROBLEMATIC DEFINITION
272 2 THE NOTION OF TIMBRE SPACE 274 2.1 CONTINUOUS PERCEPTUAL
DIMENSIONS 274 2.1.1 SPECTRAL ATTRIBUTES OF TIMBRE 274 2.1.2 TEMPORAL
ATTRIBUTES OF TIMBRE 281 2.1.3 SPECTROTEMPORAL ATTRIBUTES OF TIMBRE 283
2.2 THE NOTION OF SPECIFICITIES 285 2.3 INDIVIDUAL AND GROUP LISTENER
DIFFERENCES 286 2.4 EVALUATING THE PREDICTIVE POWER OF TIMBRE SPACES 290
2.4.1 PERCEPTUAL EFFECTS OF SOUND MODIFICATIONS 290 2.4.2 PERCEPTION OF
TIMBRAL INTERVALS 290 2.4.3 THE ROLE OF TIMBRE IN AUDITORY STREAMING 292
2.4.4 CONTEXT EFFECTS 294 2.5 VERBAL ATTRIBUTES OF TIMBRE 296 2.5.1
SEMANTIC DIFFERENTIAL ANALYSES .-. 296 2.5.2 RELATIONS BETWEEN VERBAL
AND PERCEPTUAL ATTRIBUTES OR ANALYSES OF VERBAL PROTOCOLS 296 3
CATEGORIES OF TIMBRE 297 3.1 STUDIES OF THE PERCEPTION OF CAUSALITY OF
SOUND EVENTS 299 3.2 CATEGORICAL PERCEPTION: A SPEECH-SPECIFIC
PHENOMENON 301 XXIV CONTENTS 3.2.1 DEFINITION OF THE CATEGORICAL
PERCEPTION PHENOMENON 301 3.2.2 MUSICAL CATEGORIES: PLUCKING AND
STRIKING VS BOWING 302 3.2.2.1 ARE THE SAME FEATURE DETECTORS USED FOR
SPEECH AND NONSPEECH SOUNDS? 303 3.2.2.2 CATEGORICAL PERCEPTION IN YOUNG
INFANTS 304 3.2.2.3 THE MCGURK EFFECT FOR TIMBRE 305 3.2.3 IS THERE A
PERCEPTUAL CATEGORIZATION OF TIMBRE? 306 4 CONCLUSIONS 312 REFERENCES
313 INDEX 320
|
| adam_txt |
ANALYSIS, SYNTHESIS, AND PERCEPTION OF MUSICAL SOUNDS THE SOUND OF MUSIC
JAMES W. BEAUCHAMP EDITOR UNIVERSITY OF ILLINOIS AT URBANA, USA 4Y SPRI
INGER CONTENTS PREFACE VII ACKNOWLEDGMENTS XV 1. ANALYSIS AND SYNTHESIS
OF MUSICAL INSTRUMENT SOUNDS 1 JAMES W. BEAUCHAMP 1 ANALYSIS/SYNTHESIS
METHODS 2 1.1 HARMONIE FILTER BANK (PHASE VOCODER) ANALYSIS/SYNTHESIS 3
1.1.1 FREQUENCY DEVIATION AND INHARMONICITY 3 1.1.2 HETERODYNE-FILTER
ANALYSIS METHOD 5 1.1.2.1 WINDOW FUNCTIONS 5 1.1.2.2 HARMONIE ANALYSIS
LIMITS 10 1.1.2.3 SYNTHESIS FROM HARMONIE AMPLITUDES AND FREQUENCY
DEVIATIONS 12 1.1.3 SIGNAL RECONSTRUCTION (RESYNTHESIS) AND THE
BAND-PASS FILTER BANK EQUIVALENT 12 1.1.4 SAMPLED SIGNAL IMPLEMENTATION
13 1.1.4.1 ANALYSIS STEP 14 1.1.4.2 SYNTHESIS STEP 17 1.1.4.2.1
PIECEWISE CONSTANT AMPLITUDES AND FREQUENCIES 20 1.1.4.2.2 PIECEWISE
LINEAR AMPLITUDE AND FREQUENCY INTERPOLATION 20 1.1.4.2.3 PIECEWISE
QUADRATIC INTERPOLATION OF PHASES 21 1.1.4.2.4 PIECEWISE CUBIC
INTERPOLATION OF PHASES 23 1.2 SPECTRAL FREQUENCY-TRACKING METHOD 26
1.2.1 FREQUENCY-TRACKING ANALYSIS 27 1.2.2 FREQUENCY-TRACKING ALGORITHM
29 1.2.3 FUNDAMENTAL FREQUENCY (PITCH) DETECTION 33 XVIII CONTENTS 1.2.4
REDUCTION OF FREQUENCY-TRACKING ANALYSIS TO HARMONIE ANALYSIS 36 1.2.5
FREQUENCY-TRACKING SYNTHESIS 37 1.2.5.1 FREQUENCY-TRACKING ADDITIVE
SYNTHESIS 37 1.2.5.2 RESIDUAL NOISE ANALYSIS/SYNTHESIS 39 1.2.5.3
FREQUENCY-TRACKING OVERLAP-ADD SYNTHESIS 40 2 ANALYSIS RESULTS USING
SNDAN 42 2.1 ANALYSIS FILE DATA FORMATS 43 2.2 PHASE-VOCODER ANALYSIS
EXAMPLES FOR FIXED-PITCH HARMONIE MUSICAL SOUNDS 44 2.2.1 SPECTRAL
CENTROID 45 2.2.2 SPECTRAL ENVELOPES 50 2.2.3 SPECTRAL IRREGULARITY 55
2.3 PHASE-VOCODER ANALYSIS OF SOUNDS WITH INHARMONIC PARTIAIS 58 2.3.1
INHARMONICITY OF SLIGHTLY INHARMONIC SOUNDS: THE PIANO 60 2.3.2
MEASUREMENT OF TONES WITH WIDELY SPACED PARTIAIS: THECHIME 62 2.3.3
MEASUREMENT OF A SOUND WITH DENSE PARTIAIS: THE CYMBAL 66 2.3.4
SPECTROTEMPORAL INCOHERENCE 67 2.3.5 INVERSE SPECTRAL DENSITY: CYMBAL,
CHIME, AND TIMPANI 69 2.4 FREQUENCY-TRACKING ANALYSIS OF HARMONIE SOUNDS
75 2.4.1 FREQUENCY-TRACKING ANALYSIS OF STEADY HARMONIE SOUNDS 75 2.4.2
FREQUENCY-TRACKING ANALYSIS OF VIBRATO SOUNDS: THE SINGING VOICE 75
2.4.3 FREQUENCY-TRACKING ANALYSIS OF VARIABLE-PITCH SOUNDS 81 3 SUMMARY
82 REFERENCES 86 2. FUNDAMENTAL FREQUENCY TRACKING AND APPLICATIONS TO
MUSICAL SIGNAL ANALYSIS 90 JUDITH C. BROWN 1 INTRODUCTION TO MUSICAL
SIGNAL ANALYSIS IN THE FREQUENCY DOMAIN 90 2 CALCULATION OF A CONSTANT-Q
TRANSFORM FOR MUSICAL ANALYSIS 93 2.1 BACKGROUND 93 2.2 CALCULATIONS 93
2.3 RESULTS 96 CONTENTS XIX 3 MUSICAL FUNDAMENTAL-FREQUENCY TRACKING
USING A PATTERN-RECOGNITION METHOD 99 3.1 BACKGROUND 99 3.2 CALCULATIONS
100 3.3 RESULTS 101 4 HIGH-RESOLUTION FREQUENCY CALCULATION BASED ON
PHASE DIFFERENCES 103 4.1 INTRODUCTION 103 4.2 RESULTS USING THE
HIGH-RESOLUTION FREQUENCY TRACKER 104 5 APPLICATIONS OF THE
HIGH-RESOLUTION PITCH TRACKER 105 5.1 FREQUENCY RATIOS OF SPECTRAL
COMPONENTS OF MUSICAL SOUNDS 105 5.1.1 BACKGROUND 106 5.1.2 CALCULATION
107 5.1.3 RESULTS 107 5.1.3.1 CELLO 108 5.1.3.2 ALTO FLUTE 110 5.1.4
DISCUSSION 110 5.2 PERCEIVED PITCH CENTER OF BOWED STRING INSTRUMENT
VIBRATO TONES 111 5.2.1 BACKGROUND 111 5.2.2 EXPERIMENTAL METHOD 112
5.2.2.1 SOUND PRODUCTION AND MANIPULATION 112 5.2.2.2 LISTENING
EXPERIMENTS 112 5.2.3 RESULTS 113 5.2.3.1 EXPERIMENT 1:
NONPROFESSIONAL-PERFORMER LISTENERS 113 5.2.3.2 EXPERIMENT 2:
GRADUATE-LEVEL AND PROFESSIONAL VIOLINIST LISTENERS 114 5.2.3.3
EXPERIMENT 3: DETERMINATION OF JND FOR PITCH 114 6 SUMMARY AND
CONCLUSIONS 116 APPENDIX A: AN EFFICIENT ALGORITHM FOR THE CALCULATION
OF A CONSTANT-Q TRANSFORM 116 APPENDIX B: SINGLE-FRAME
APPROXIMATION*CALCULATION OF PHASE CHANGE FOR A HOP SIZE OF ONE SAMPLE
117 REFERENCES 119 3. BEYOND TRADITIONAL SAMPLING SYNTHESIS: REAL-TIME
TIMBRE MORPHING USING ADDITIVE SYNTHESIS 122 LIPPOLD HAKEN, KELLY FITZ,
AND PAUL CHRISTENSEN 1 INTRODUCTION 122 2 ADDITIVE SYNTHESIS MODEL 123
2.1 REAL-TIME SYNTHESIS 124 XX CONTENTS 2.2 ENVELOPE PARAMETER STREAMS
125 2.3 NOISE ENVELOPES 125 3 ADDITIVE SOUND ANALYSIS 125 3.1 SINUSOIDAL
ANALYSIS 125 3.2 NOISE-ENHANCED SINUSOIDAL ANALYSIS 125 3.3 SPECTRAL
REASSIGNMENT 128 3.3.1 TIME REASSIGNMENT 128 3.3.2 FREQUENCY
REASSIGNMENT 130 3.3.3 SPECTRAL-REASSIGNMENT SUMMARY 130 4 NAVIGATING
SOURCE TIMBRES: TIMBRE CONTROL SPACE 131 4.1 CREATING A NEW TIMBRE
CONTROL SPACE 135 4.2 TIMBRE CONTROL SPACE WITH MORE CONTROL DIMENSIONS
135 4.3 PRODUCING INTERMEDIATE TIMBRES: TIMBRE MORPHING 135 4.4
WEIGHTING FUNCTIONS FOR REAL-TIME MORPHING 136 4.5 TIME DILATION USING
TIME ENVELOPES 136 4.6 MORPHED ENVELOPES 137 4.7 LOW-AMPLITUDE PARTIAIS
138 5 NEW POSSIBILITIES FOR THE PERFORMER: THE CONTINUUM FINGERBOARD 139
5.1 PREVIOUS WORK 140 5.2 MECHANICAL DESIGN OF THE PLAYING SURFACE 141 6
FINAL SUMMARY 142 REFERENCES 142 4. A COMPACT AND MALLEABLE
SINES+TRANSIENTS+NOISE MODEL FOR SOUND 145 SCOTT N. LEVINE AND JULIUS O.
SMITH III 1 INTRODUCTION 145 1.1 HISTORY OF SINUSOIDAL MODELING 146 1.2
AUDIO SIGNAL MODELS FOR DATA COMPRESSION AND TRANSFORMATION 148 1.3
CHAPTER OVERVIEW 149 2 SYSTEM OVERVIEW 150 2.1 RELATED CURRENT SYSTEMS
150 2.2 TIME-FREQUENCY SEGMENTATION 151 2.3 REASONS FOR THE DIFFERENT
MODELS 151 3 MULTIRESOLUTION SINUSOIDAL MODELING 152 3.1 ANALYSIS FILTER
BANK 154 3.2 SINUSOIDAL PARAMETERS 155 3.2.1 SINUSOIDAL TRACKING 155
3.2.2 MASKING 155 3.2.3 SINUSOIDAL TRAJECTORY ELIMINATION 157 3.2.4
SINUSOIDAL TRAJECTORY QUANTIZATION 158 3.3 SWITCHED PHASE RECONSTRUCTION
158 3.3.1 CUBIC-POLYNOMIAL PHASE RECONSTRUCTION 160 CONTENTS XXI 3.3.2
PHASELESS RECONSTRUCTION 160 3.3.3 PHASE S WITCHING 161 4
TRANSFORM-CODED TRANSIENTS 161 4.1 TRANSIENT DETECTION 162 4.2 A
SIMPLIFIED TRANSFORM CODER 163 4.3 TIME-FREQUENCY PRUNING 164 5 NOISE
MODELING 164 5.1 BARK-BAND QUANTIZATION 165 5.2 LINE-SEGMENT
APPROXIMATION 166 6 APPLICATIONS 167 6.1 SINUSOIDAL TIME-SCALE
MODIFICATION 170 6.2 TRANSIENT TIME-SCALE MODIFICATION 170 6.3 NOISE
TIME-SCALE MODIFICATION 170 7 CONCLUSIONS 170 8 ACKNOWLEDGMENT 171
REFERENCES 171 5. SPECTRAL ENVELOPES AND ADDITIVE + RESIDUAL
ANALYSIS/SYNTHESIS 175 XAVIER RODET AND DIEMO SCHWARZ 1 INTRODUCTION 175
2 SPECTRAL ENVELOPES AND SOURCE-FILTER MODELS 178 2.1 SOURCE-FILTER
MODELS 178 2.2 SOURCE-FILTER MODELS REPRESENTED BY SPECTRAL ENVELOPES
181 2.3 SPECTRAL ENVELOPES AND PERCEPTION 184 2.4 SOURCE AND SPECTRUM
TILT 186 2.5 PROPERTIES OF SPECTRAL ENVELOPES 187 3 SPECTRAL ENVELOPE
ESTIMATION METHODS 188 3.1 REQUIREMENTS 190 3.2 AUTOREGRESSION SPECTRAL
ENVELOPE 190 3.2.1 DISADVANTAGE OF AR SPECTRAL ENVELOPE ESTIMATION 193
3.3 CEPSTRUM SPECTRAL ENVELOPE 194 3.3.1 DISADVANTAGES OF THE CEPSTRUM
METHOD 196 3.4 DISCRETE CEPSTRUM SPECTRAL ENVELOPE 197 3.5 IMPROVEMENTS
ON THE DISCRETE CEPSTRUM METHOD 200 3.5.1 REGULARIZATION 200 3.5.2
STOCHASTIC SMOOTHING (THE CLOUD METHOD) 200 3.5.3 NONLINEAR FREQUENCY
SCALING 202 3.6 ESTIMATION OF THE SPECTRAL ENVELOPE OF THE RESIDUAL
SIGNAL 204 4 REPRESENTATION OF SPECTRAL ENVELOPES 205 4.1 REQUIREMENTS
205 4.2 FILTER PARAMETERS 206 XXII CONTENTS 4.3 FREQUENCY DOMAIN SAMPLED
REPRESENTATION 206 4.4 GEOMETRIE REPRESENTATION 207 4.5 FORMANTS 208
4.5.1 FORMANT WAVE FUNCTIONS 208 4.5.2 BASIC FORMANTS 209 4.5.3 FUZZY
FORMANTS 209 4.5.4 DISCUSSION OF FORMANT REPRESENTATION 210 4.6
COMPARISON OF REPRESENTATIONS 210 5 TRANSCODING AND MANIPULATION OF
SPECTRAL ENVELOPES 211 5.1 TRANSCODINGS 211 5.1.1 CONVERTING FORMANTS TO
AR-FILTER COEFFICIENTS 211 5.1.2 FORMANT ESTIMATION 211 5.2
MANIPULATIONS 212 5.3 MORPHING 212 5.3.1 SHIFTING FORMANTS 213 5.3.2
SHIFTING FUZZY FORMANTS 214 5.3.3 MORPHING BETWEEN WELL-DEFINED FORMANTS
215 5.3.4 SUMMARY OF FORMANT MORPHING 215 6 SYNTHESIS WITH SPECTRAL
ENVELOPES 216 6.1 FILTER SYNTHESIS 216 6.2 ADDITIVE SYNTHESIS 217 6.3
ADDITIVE SYNTHESIS WITH THE FFT" 1 METHOD 217 7 APPLICATIONS 218 7.1
CONTROLLING ADDITIVE SYNTHESIS 218 7.2 SYNTHESIS AND TRANSFORMATION OF
THE SINGING VOICE 219 8 CONCLUSIONS 220 9 SUMMARY 220 APPENDIX: LIST OF
SYMBOLS 221 REFERENCES 222 6. A COMPARISON OF WAVETABLE AND FM DATA
REDUCTION METHODS FOR RESYNTHESIS OF MUSICAL SOUNDS 228 ANDREW HOMER 1
INTRODUCTION 228 2 EVALUATION OF WAVETABLE AND FM METHODS 229 3
COMPARISON OF WAVETABLE AND FM METHODS 231 3.1 GENERALIZED WAVETABLE
MATCHING 232 3.2 WAVETABLE-INDEX MATCHING 232 3.3
WAVETABLE-INTERPOLATION MATCHING 234 3.4 FORMANT-FM MATCHING 236 3.5
DOUBLE-FM MATCHING 237 3.6 NESTED-FM MATCHING 238 4 RESULTS 240 4.1
THETRUMPET 241 CONTENTS XXIII 4.2 THE TENOR VOICE 243 4.3 THEPIPA 245 5
CONCLUSIONS 245 ACKNOWLEDGMENTS 247 REFERENCES 247 7. THE EFFECT OF
DYNAMIC ACOUSTICAL FEATURES ON MUSICAL TIMBRE 250 JOHN M. HAJDA 1
INTRODUCTION 250 2 GLOBAL TIME-ENVELOPE AND SPECTRAL PARAMETERS 251 2.1
SALIENCE OF PARTITIONED TIME SEGMENTS 251 2.2 RELATIONAL TIMBRE STUDIES
258 2.2.1 TEMPORAL ENVELOPE 260 2.2.2 SPECTRAL ENERGY DISTRIBUTION 261
2.2.3 SPECTRAL TIME VARIANCE 262 3 THE EXPERIMENTAL CONTROL OF
ACOUSTICAL VARIABLES 263 4 CONCLUSIONS AND DIRECTIONS FOR FUTURE
RESEARCH 267 REFERENCES 268 8. MENTAL REPRESENTATION OF THE TIMBRE OF
COMPLEX SOUNDS 272 SOPHIE DONNADIEU 1 TIMBRE: A PROBLEMATIC DEFINITION
272 2 THE NOTION OF TIMBRE SPACE 274 2.1 CONTINUOUS PERCEPTUAL
DIMENSIONS 274 2.1.1 SPECTRAL ATTRIBUTES OF TIMBRE 274 2.1.2 TEMPORAL
ATTRIBUTES OF TIMBRE 281 2.1.3 SPECTROTEMPORAL ATTRIBUTES OF TIMBRE 283
2.2 THE NOTION OF SPECIFICITIES 285 2.3 INDIVIDUAL AND GROUP LISTENER
DIFFERENCES 286 2.4 EVALUATING THE PREDICTIVE POWER OF TIMBRE SPACES 290
2.4.1 PERCEPTUAL EFFECTS OF SOUND MODIFICATIONS 290 2.4.2 PERCEPTION OF
TIMBRAL INTERVALS 290 2.4.3 THE ROLE OF TIMBRE IN AUDITORY STREAMING 292
2.4.4 CONTEXT EFFECTS 294 2.5 VERBAL ATTRIBUTES OF TIMBRE 296 2.5.1
SEMANTIC DIFFERENTIAL ANALYSES .-. 296 2.5.2 RELATIONS BETWEEN VERBAL
AND PERCEPTUAL ATTRIBUTES OR ANALYSES OF VERBAL PROTOCOLS 296 3
CATEGORIES OF TIMBRE 297 3.1 STUDIES OF THE PERCEPTION OF CAUSALITY OF
SOUND EVENTS 299 3.2 CATEGORICAL PERCEPTION: A SPEECH-SPECIFIC
PHENOMENON 301 XXIV CONTENTS 3.2.1 DEFINITION OF THE CATEGORICAL
PERCEPTION PHENOMENON 301 3.2.2 MUSICAL CATEGORIES: PLUCKING AND
STRIKING VS BOWING 302 3.2.2.1 ARE THE SAME FEATURE DETECTORS USED FOR
SPEECH AND NONSPEECH SOUNDS? 303 3.2.2.2 CATEGORICAL PERCEPTION IN YOUNG
INFANTS 304 3.2.2.3 THE MCGURK EFFECT FOR TIMBRE 305 3.2.3 IS THERE A
PERCEPTUAL CATEGORIZATION OF TIMBRE? 306 4 CONCLUSIONS 312 REFERENCES
313 INDEX 320 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author2 | Beauchamp, James W. |
| author2_role | edt |
| author2_variant | j w b jw jwb |
| author_facet | Beauchamp, James W. |
| building | Verbundindex |
| bvnumber | BV022779793 |
| callnumber-first | M - Music |
| callnumber-label | ML3807 |
| callnumber-raw | ML3807 |
| callnumber-search | ML3807 |
| callnumber-sort | ML 43807 |
| callnumber-subject | ML - Literature on Music |
| classification_rvk | LR 57600 ST 306 UF 6700 |
| classification_tum | PHY 295f |
| ctrlnum | (OCoLC)80145578 (DE-599)BVBBV022779793 |
| dewey-full | 781.2/3 781/.11 |
| dewey-hundreds | 700 - The arts |
| dewey-ones | 781 - General principles and musical forms |
| dewey-raw | 781.2/3 781/.11 |
| dewey-search | 781.2/3 781/.11 |
| dewey-sort | 3781.2 13 |
| dewey-tens | 780 - Music |
| discipline | Physik Informatik Musikwissenschaft |
| discipline_str_mv | Physik Informatik Musikwissenschaft |
| format | Book |
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| genre_facet | Aufsatzsammlung |
| id | DE-604.BV022779793 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:35:51Z |
| indexdate | 2024-07-09T21:05:59Z |
| institution | BVB |
| isbn | 9780387324968 |
| language | English |
| lccn | 2006920599 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015985316 |
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| physical | XXIV, 325 S. Ill., graph. Darst. 25 cm |
| publishDate | 2007 |
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| publisher | Springer |
| record_format | marc |
| series2 | Modern acoustics and signal processing |
| spelling | Analysis, synthesis, and perception of musical sounds the sound of music James W. Beauchamp, ed. New York Springer 2007 XXIV, 325 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Modern acoustics and signal processing Includes bibliographical references (p. 313 - 319) and index Acústica musical larpcal Musique - Aspect physiologique Musique - Aspect psychologique Perception auditive Perception de la musique Percepção auditiva larpcal Percepção musical larpcal Som (música) larpcal Musik Psychologie Musical perception Auditory perception Music Psychological aspects Acoustics Spectrum Analysis methods Auditory Perception Wahrnehmung (DE-588)4064317-7 gnd rswk-swf Akustik (DE-588)4000988-9 gnd rswk-swf Akustische Spektrographie (DE-588)4202331-2 gnd rswk-swf Physiologie (DE-588)4045981-0 gnd rswk-swf Musik (DE-588)4040802-4 gnd rswk-swf Klang (DE-588)4030933-2 gnd rswk-swf Musikpsychologie (DE-588)4127817-3 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Wahrnehmung (DE-588)4064317-7 s Musik (DE-588)4040802-4 s DE-604 Musikpsychologie (DE-588)4127817-3 s Physiologie (DE-588)4045981-0 s Klang (DE-588)4030933-2 s Akustik (DE-588)4000988-9 s Akustische Spektrographie (DE-588)4202331-2 s Beauchamp, James W. edt GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015985316&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Analysis, synthesis, and perception of musical sounds the sound of music Acústica musical larpcal Musique - Aspect physiologique Musique - Aspect psychologique Perception auditive Perception de la musique Percepção auditiva larpcal Percepção musical larpcal Som (música) larpcal Musik Psychologie Musical perception Auditory perception Music Psychological aspects Acoustics Spectrum Analysis methods Auditory Perception Wahrnehmung (DE-588)4064317-7 gnd Akustik (DE-588)4000988-9 gnd Akustische Spektrographie (DE-588)4202331-2 gnd Physiologie (DE-588)4045981-0 gnd Musik (DE-588)4040802-4 gnd Klang (DE-588)4030933-2 gnd Musikpsychologie (DE-588)4127817-3 gnd |
| subject_GND | (DE-588)4064317-7 (DE-588)4000988-9 (DE-588)4202331-2 (DE-588)4045981-0 (DE-588)4040802-4 (DE-588)4030933-2 (DE-588)4127817-3 (DE-588)4143413-4 |
| title | Analysis, synthesis, and perception of musical sounds the sound of music |
| title_auth | Analysis, synthesis, and perception of musical sounds the sound of music |
| title_exact_search | Analysis, synthesis, and perception of musical sounds the sound of music |
| title_exact_search_txtP | Analysis, synthesis, and perception of musical sounds the sound of music |
| title_full | Analysis, synthesis, and perception of musical sounds the sound of music James W. Beauchamp, ed. |
| title_fullStr | Analysis, synthesis, and perception of musical sounds the sound of music James W. Beauchamp, ed. |
| title_full_unstemmed | Analysis, synthesis, and perception of musical sounds the sound of music James W. Beauchamp, ed. |
| title_short | Analysis, synthesis, and perception of musical sounds |
| title_sort | analysis synthesis and perception of musical sounds the sound of music |
| title_sub | the sound of music |
| topic | Acústica musical larpcal Musique - Aspect physiologique Musique - Aspect psychologique Perception auditive Perception de la musique Percepção auditiva larpcal Percepção musical larpcal Som (música) larpcal Musik Psychologie Musical perception Auditory perception Music Psychological aspects Acoustics Spectrum Analysis methods Auditory Perception Wahrnehmung (DE-588)4064317-7 gnd Akustik (DE-588)4000988-9 gnd Akustische Spektrographie (DE-588)4202331-2 gnd Physiologie (DE-588)4045981-0 gnd Musik (DE-588)4040802-4 gnd Klang (DE-588)4030933-2 gnd Musikpsychologie (DE-588)4127817-3 gnd |
| topic_facet | Acústica musical Musique - Aspect physiologique Musique - Aspect psychologique Perception auditive Perception de la musique Percepção auditiva Percepção musical Som (música) Musik Psychologie Musical perception Auditory perception Music Psychological aspects Acoustics Spectrum Analysis methods Auditory Perception Wahrnehmung Akustik Akustische Spektrographie Physiologie Klang Musikpsychologie Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015985316&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT beauchampjamesw analysissynthesisandperceptionofmusicalsoundsthesoundofmusic |