Verfügbarkeit: The theory and technique of electronic music

The theory and technique of electronic music:

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Bibliographische Detailangaben
1. Verfasser:	Puckette, Miller S. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey World Scientific 2007
Schlagworte:	Electronic music > Instruction and study Elektronische Musik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 331 Seiten Diagramme, Illustrationen
ISBN:	9812700773 9789812700773

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adam_text	Contents Foreword xi Preface xiii 1 Sinusoids, Amplitude and Frequency 1 1.1 Measures of Amplitude ..................... 3 1.2 Units of Amplitude ....................... 4 1.3 Controlling Amplitude ..................... 6 1.4 Frequency ............................ 6 1.5 Synthesizing a Sinusoid .................... 8 1.6 Superposing Signals ...................... 11 1.7 Periodic Signals ......................... 12 1.8 About the Software Examples ................. 15 Quick introduction to Pd ................... 16 How to find and run the examples .............. 17 1.9 Examples ............................ 18 Constant amplitude sealer ................... 18 Amplitude control in decibels ................. 20 Smoothed amplitude control with an envelope generator . . 21 Major triad ........................... 22 Conversion between frequency and pitch ........... 23 More additive synthesis .................... 24 Exercises ............................... 25 2 Wavetables and Samplers 27 2.1 The Wavetable Oscillator ................... 30 2.2 Sampling ............................ 33 2.3 Enveloping Samplers ...................... 36 2.4 Timbre Stretching ....................... 39 2.5 Interpolation .......................... 43 vi Contents 2.6 Examples ............................ 47 Wavetable oscillator ...................... 47 Wavetable lookup in general .................. 48 Using a wavetable as a sampler ................ 51 Looping samplers ........................ 52 Overlapping sample looper ................... 54 Automatic read point precession ............... 55 Exercises ............................... 58 3 Audio and Control Computations 59 3.1 The Sampling Theorem .................... 59 3.2 Control ............................. 61 3.3 Control Streams ........................ 63 3.4 Conversion from Audio Signals to Numeric Control Streams 68 3.5 Control Streams in Block Diagrams .............. 69 3.6 Event Detection ......................... 69 3.7 Audio Signals as Control .................... 71 3.8 Operations on Control Streams ................ 74 3.9 Control Operations in Pd ................... 76 3.10 Examples ............................ 78 Sampling and foldover ..................... 78 Converting controls to signals ................. 80 Non- looping wavetable player ................. 81 Signals to controls ....................... 82 Analog-style sequencer ..................... 83 MIDI-style synthesizer ..................... 83 Exercises ............................... 86 4 Automation and Voice Management 89 4.1 Envelope Generators ...................... 89 4.2 Linear and Curved Amplitude Shapes ............ 92 4.3 Continuous and Discontinuous Control Changes ....... 94 4.3.1 Muting ......................... 95 4.3.2 Switch-and-ramp .................... 96 4.4 Polyphony ............................ 98 4.5 Voice Allocation ........................ 99 4.6 Voice Tags ............................ 100 4.7 Encapsulation in Pd ...................... 102 4.8 Examples ............................ 104 ADSR envelope generator ................... 104 Transfer functions for amplitude control ........... 106 Additive synthesis: Risset s bell ................ 107 Contents vii Additive synthesis: spectral envelope control ........ 110 Polyphonic synthesis: sampler ................. 112 Exercises ............................... 116 5 Modulation 119 5.1 Taxonomy of Spectra ...................... 119 5.2 Multiplying Audio Signals ................... 122 5.3 Waveshaping .......................... 126 5.4 Frequency and Phase Modulation ............... 132 5.5 Examples ............................ 135 Ring modulation and spectra ................. 135 Octave divider and formant adder .............. 137 Waveshaping and difference tones ............... 138 Waveshaping using Chebychev polynomials ......... 139 Waveshaping using an exponential function ......... 141 Sinusoidal waveshaping: evenness and oddness ....... 143 Phase modulation and FM................... 144 Exercises ............................... 146 6 Designer Spectra 149 6.1 Carrier/Modulator Model ................... 150 6.2 Pulse Trains ........................... 153 6.2.1 Pulse trains via waveshaping ............. 153 6.2.2 Pulse trains via wavetable stretching ......... 154 6.2.3 Resulting spectra .................... 155 6.3 Movable Ring Modulation ................... 158 6.4 Phase-Aligned Formant (PAF) Generator .......... 160 6.5 Examples ............................ 165 Wavetable pulse train ..................... 165 Simple formant generator ................... 167 Two-cosine carrier signal .................... 168 The PAF generator ....................... 170 Stretched wavetables ...................... 174 Exercises ............................... 174 7 Time Shifts and Delays 175 7.1 Complex Numbers ....................... 176 7.1.1 Complex sinusoids ................... 178 7.2 Time Shifts and Phase Changes ................ 180 7.3 Delay Networks ......................... 181 7.4 Recirculating Delay Networks ................. 186 7.5 Power Conservation and Complex Delay Networks ..... 190 viii Contents 7.6 Artificial Reverberation .................... 195 7.6.1 Controlling reverberators ............... 198 7.7 Variable and Fractional Shifts ................. 198 7.8 Fidelity of Interpolating Delay Lines ............. 202 7.9 Pitch Shifting .......................... 204 7.10 Examples ............................ 209 Fixed, noninterpolating delay line ............... 209 Recirculating comb filter .................... 210 Variable delay line ....................... 210 Order of execution and lower limits on delay times ..... 212 Order of execution in non-recirculating delay lines ..... 215 Non-recirculating comb filter as octave doubler ....... 216 Time-varying complex comb filter: shakers .......... 218 Reverberator .......................... 219 Pitch shifter ........................... 222 Exercises ............................... 222 8 Filters 225 8.1 Taxonomy of Filters ...................... 226 8.1.1 Low-pass and high-pass filters ............. 226 8.1.2 Band-pass and stop-band filters ............ 228 8.1.3 Equalizing filters .................... 229 8.2 Elementary Filters ....................... 231 8.2.1 Elementary non-recirculating filter .......... 231 8.2.2 Non-recirculating filter, second form ......... 233 8.2.3 Elementary recirculating filter ............. 234 8.2.4 Compound filters .................... 235 8.2.5 Real outputs from complex filters ........... 236 8.2.6 Two recirculating filters for the price of one ..... 237 8.3 Designing Filters ........................ 238 8.3.1 One-pole low-pass filter ................ 238 8.3.2 One-pole, one-zero high-pass filter .......... 239 8.3.3 Shelving filter ...................... 240 8.3.4 Band-pass filter ..................... 242 8.3.5 Peaking and stop-band filter ............. 243 8.3.6 Butterworth filters ................... 244 8.3.7 Stretching the unit circle with rational functions . . 245 8.3.8 Butterworth band-pass filter ............. 248 8.3.9 Time-varying coefficients ............... 249 8.3.10 Impulse responses of recirculating filters ....... 251 8.3.11 All-pass filters ..................... 253 8.4 Applications ........................... 254 Contents ix 8.4.1 Subtractive synthesis.................. 254 8.4.2 Envelope following ................... 256 8.4.3 Single sideband modulation .............. 258 8.5 Examples ............................ 259 Prefabricated low-, high-, and band-pass filters ....... 259 Prefabricated time-varying band-pass filter ......... 260 Envelope followers ....................... 261 Single sideband modulation .................. 263 Using elementary filters directly: shelving and peaking . . . 264 Making and using all-pass filters ............... 266 Exercises ............................... 266 9 Fourier Analysis and Resynthesis 267 9.1 Fourier Analysis of Periodic Signals ............... 267 9.1.1 Periodicity of the Fourier transform ......... 269 9.1.2 Fourier transform as additive synthesis ........ 269 9.2 Properties of Fourier Transforms ............... 270 9.2.1 Fourier transform of DC ................ 270 9.2.2 Shifts and phase changes ............... 272 9.2.3 Fourier transform of a sinusoid ............ 274 9.3 Fourier Analysis of Non-Periodic Signals ........... 274 9.4 Fourier Analysis and Reconstruction of Audio Signals . . . 279 9.4.1 Narrow-band companding ............... 281 9.4.2 Timbre stamping (classical vocoder) ......... 283 9.5 Phase .............................. 284 9.5.1 Phase relationships between channels ......... 288 9.6 Phase Bashing ......................... 290 9.7 Examples ............................ 291 Fourier analysis and resynthesis in Pd ............ 291 Narrow-band companding: noise suppression ........ 293 Timbre stamp ( vocoder ) ................... 295 Phase vocoder time bender .................. 296 Exercises ............................... 299 10 Classical Waveforms 301 10.1 Symmetries and Fourier Series ................ 302 10.1.1 Sawtooth waves and symmetry ............ 304 10.2 Dissecting Classical Waveforms ................ 305 10.3 Fourier Series of the Elementary Waveforms ......... 308 10.3.1 Sawtooth wave ..................... 309 10.3.2 Parabolic wave ..................... 310 10.3.3 Square and symmetric triangle waves ......... 311 χ Contents 10.3.4 General (non-symmetric) triangle wave ........ 311 10.4 Predicting and Controlling Foldover ............. 313 10.4.1 Over-sampling ..................... 314 10.4.2 Sneaky triangle waves ................. 314 10.4.3 Transition splicing ................... 316 10.5 Examples ............................ 319 Combining sawtooth waves .................. 319 Strategies for band-limiting sawtooth waves ......... 320 Exercises ............................... 322 Bibliography 323 Index 327
adam_txt	Contents Foreword xi Preface xiii 1 Sinusoids, Amplitude and Frequency 1 1.1 Measures of Amplitude . 3 1.2 Units of Amplitude . 4 1.3 Controlling Amplitude . 6 1.4 Frequency . 6 1.5 Synthesizing a Sinusoid . 8 1.6 Superposing Signals . 11 1.7 Periodic Signals . 12 1.8 About the Software Examples . 15 Quick introduction to Pd . 16 How to find and run the examples . 17 1.9 Examples . 18 Constant amplitude sealer . 18 Amplitude control in decibels . 20 Smoothed amplitude control with an envelope generator . . 21 Major triad . 22 Conversion between frequency and pitch . 23 More additive synthesis . 24 Exercises . 25 2 Wavetables and Samplers 27 2.1 The Wavetable Oscillator . 30 2.2 Sampling . 33 2.3 Enveloping Samplers . 36 2.4 Timbre Stretching . 39 2.5 Interpolation . 43 vi Contents 2.6 Examples . 47 Wavetable oscillator . 47 Wavetable lookup in general . 48 Using a wavetable as a sampler . 51 Looping samplers . 52 Overlapping sample looper . 54 Automatic read point precession . 55 Exercises . 58 3 Audio and Control Computations 59 3.1 The Sampling Theorem . 59 3.2 Control . 61 3.3 Control Streams . 63 3.4 Conversion from Audio Signals to Numeric Control Streams 68 3.5 Control Streams in Block Diagrams . 69 3.6 Event Detection . 69 3.7 Audio Signals as Control . 71 3.8 Operations on Control Streams . 74 3.9 Control Operations in Pd . 76 3.10 Examples . 78 Sampling and foldover . 78 Converting controls to signals . 80 Non- looping wavetable player . 81 Signals to controls . 82 Analog-style sequencer . 83 MIDI-style synthesizer . 83 Exercises . 86 4 Automation and Voice Management 89 4.1 Envelope Generators . 89 4.2 Linear and Curved Amplitude Shapes . 92 4.3 Continuous and Discontinuous Control Changes . 94 4.3.1 Muting . 95 4.3.2 Switch-and-ramp . 96 4.4 Polyphony . 98 4.5 Voice Allocation . 99 4.6 Voice Tags . 100 4.7 Encapsulation in Pd . 102 4.8 Examples . 104 ADSR envelope generator . 104 Transfer functions for amplitude control . 106 Additive synthesis: Risset's bell . 107 Contents vii Additive synthesis: spectral envelope control . 110 Polyphonic synthesis: sampler . 112 Exercises . 116 5 Modulation 119 5.1 Taxonomy of Spectra . 119 5.2 Multiplying Audio Signals . 122 5.3 Waveshaping . 126 5.4 Frequency and Phase Modulation . 132 5.5 Examples . 135 Ring modulation and spectra . 135 Octave divider and formant adder . 137 Waveshaping and difference tones . 138 Waveshaping using Chebychev polynomials . 139 Waveshaping using an exponential function . 141 Sinusoidal waveshaping: evenness and oddness . 143 Phase modulation and FM. 144 Exercises . 146 6 Designer Spectra 149 6.1 Carrier/Modulator Model . 150 6.2 Pulse Trains . 153 6.2.1 Pulse trains via waveshaping . 153 6.2.2 Pulse trains via wavetable stretching . 154 6.2.3 Resulting spectra . 155 6.3 Movable Ring Modulation . 158 6.4 Phase-Aligned Formant (PAF) Generator . 160 6.5 Examples . 165 Wavetable pulse train . 165 Simple formant generator . 167 Two-cosine carrier signal . 168 The PAF generator . 170 Stretched wavetables . 174 Exercises . 174 7 Time Shifts and Delays 175 7.1 Complex Numbers . 176 7.1.1 Complex sinusoids . 178 7.2 Time Shifts and Phase Changes . 180 7.3 Delay Networks . 181 7.4 Recirculating Delay Networks . 186 7.5 Power Conservation and Complex Delay Networks . 190 viii Contents 7.6 Artificial Reverberation . 195 7.6.1 Controlling reverberators . 198 7.7 Variable and Fractional Shifts . 198 7.8 Fidelity of Interpolating Delay Lines . 202 7.9 Pitch Shifting . 204 7.10 Examples . 209 Fixed, noninterpolating delay line . 209 Recirculating comb filter . 210 Variable delay line . 210 Order of execution and lower limits on delay times . 212 Order of execution in non-recirculating delay lines . 215 Non-recirculating comb filter as octave doubler . 216 Time-varying complex comb filter: shakers . 218 Reverberator . 219 Pitch shifter . 222 Exercises . 222 8 Filters 225 8.1 Taxonomy of Filters . 226 8.1.1 Low-pass and high-pass filters . 226 8.1.2 Band-pass and stop-band filters . 228 8.1.3 Equalizing filters . 229 8.2 Elementary Filters . 231 8.2.1 Elementary non-recirculating filter . 231 8.2.2 Non-recirculating filter, second form . 233 8.2.3 Elementary recirculating filter . 234 8.2.4 Compound filters . 235 8.2.5 Real outputs from complex filters . 236 8.2.6 Two recirculating filters for the price of one . 237 8.3 Designing Filters . 238 8.3.1 One-pole low-pass filter . 238 8.3.2 One-pole, one-zero high-pass filter . 239 8.3.3 Shelving filter . 240 8.3.4 Band-pass filter . 242 8.3.5 Peaking and stop-band filter . 243 8.3.6 Butterworth filters . 244 8.3.7 Stretching the unit circle with rational functions . . 245 8.3.8 Butterworth band-pass filter . 248 8.3.9 Time-varying coefficients . 249 8.3.10 Impulse responses of recirculating filters . 251 8.3.11 All-pass filters . 253 8.4 Applications . 254 Contents ix 8.4.1 Subtractive synthesis. 254 8.4.2 Envelope following . 256 8.4.3 Single sideband modulation . 258 8.5 Examples . 259 Prefabricated low-, high-, and band-pass filters . 259 Prefabricated time-varying band-pass filter . 260 Envelope followers . 261 Single sideband modulation . 263 Using elementary filters directly: shelving and peaking . . . 264 Making and using all-pass filters . 266 Exercises . 266 9 Fourier Analysis and Resynthesis 267 9.1 Fourier Analysis of Periodic Signals . 267 9.1.1 Periodicity of the Fourier transform . 269 9.1.2 Fourier transform as additive synthesis . 269 9.2 Properties of Fourier Transforms . 270 9.2.1 Fourier transform of DC . 270 9.2.2 Shifts and phase changes . 272 9.2.3 Fourier transform of a sinusoid . 274 9.3 Fourier Analysis of Non-Periodic Signals . 274 9.4 Fourier Analysis and Reconstruction of Audio Signals . . . 279 9.4.1 Narrow-band companding . 281 9.4.2 Timbre stamping (classical vocoder) . 283 9.5 Phase . 284 9.5.1 Phase relationships between channels . 288 9.6 Phase Bashing . 290 9.7 Examples . 291 Fourier analysis and resynthesis in Pd . 291 Narrow-band companding: noise suppression . 293 Timbre stamp ("vocoder") . 295 Phase vocoder time bender . 296 Exercises . 299 10 Classical Waveforms 301 10.1 Symmetries and Fourier Series . 302 10.1.1 Sawtooth waves and symmetry . 304 10.2 Dissecting Classical Waveforms . 305 10.3 Fourier Series of the Elementary Waveforms . 308 10.3.1 Sawtooth wave . 309 10.3.2 Parabolic wave . 310 10.3.3 Square and symmetric triangle waves . 311 χ Contents 10.3.4 General (non-symmetric) triangle wave . 311 10.4 Predicting and Controlling Foldover . 313 10.4.1 Over-sampling . 314 10.4.2 Sneaky triangle waves . 314 10.4.3 Transition splicing . 316 10.5 Examples . 319 Combining sawtooth waves . 319 Strategies for band-limiting sawtooth waves . 320 Exercises . 322 Bibliography 323 Index 327
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spelling	Puckette, Miller S. Verfasser aut The theory and technique of electronic music Miller Puckette New Jersey World Scientific 2007 XIV, 331 Seiten Diagramme, Illustrationen txt rdacontent n rdamedia nc rdacarrier Electronic music Instruction and study Elektronische Musik (DE-588)4014355-7 gnd rswk-swf Elektronische Musik (DE-588)4014355-7 s DE-604 Digitalisierung BSBMuenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015991533&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Puckette, Miller S. The theory and technique of electronic music Electronic music Instruction and study Elektronische Musik (DE-588)4014355-7 gnd
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title	The theory and technique of electronic music
title_auth	The theory and technique of electronic music
title_exact_search	The theory and technique of electronic music
title_exact_search_txtP	The theory and technique of electronic music
title_full	The theory and technique of electronic music Miller Puckette
title_fullStr	The theory and technique of electronic music Miller Puckette
title_full_unstemmed	The theory and technique of electronic music Miller Puckette
title_short	The theory and technique of electronic music
title_sort	the theory and technique of electronic music
topic	Electronic music Instruction and study Elektronische Musik (DE-588)4014355-7 gnd
topic_facet	Electronic music Instruction and study Elektronische Musik
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