Mercurial > hg > aeolian-tone
diff freqCalcCyl4No_D4Mach.pd @ 0:ba6878e40772
Demo of Aeolian tone sound synthesis model
author | Rod Selfridge <r.selfridge@qmul.ac.uk> |
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date | Tue, 17 May 2016 09:50:06 +0100 |
parents | |
children | 971da3e24318 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/freqCalcCyl4No_D4Mach.pd Tue May 17 09:50:06 2016 +0100 @@ -0,0 +1,1130 @@ +#N canvas 159 62 1370 784 10; +#X text 582 246 Mass Density of Air; +#X obj 704 247 *~ 1.225; +#X obj 704 322 /~ 1.81e-05; +#X obj 704 277 *~ 1; +#X obj 704 440 /~ 1; +#X obj 704 416 *~; +#X obj 223 63 inlet; +#X text 737 366 Reynolds Number; +#X text 584 433 Strouhal Number; +#X obj 388 61 inlet; +#X text 734 302 Viscosity; +#X obj 223 84 s \$0-diameter; +#X obj 765 246 r \$0-diameter; +#X obj 772 421 r \$0-diameter; +#X obj 120 85 s~ \$0-windSpeed; +#X obj 771 398 r~ \$0-windSpeed; +#X obj 704 219 r~ \$0-windSpeed; +#X obj 704 464 s~ \$0-myFreq; +#X obj 1052 375 *~; +#X obj 717 346 s~ \$0-myRey; +#X obj 636 57 inlet; +#X text 668 502 Calculates the frequency; +#X text 669 515 based on the physics of; +#X obj 317 425 r~ \$0-windSpeed; +#X obj 357 487 r \$0-diameter; +#X obj 460 60 inlet; +#X obj 534 59 inlet; +#X text 293 367 Calculates the gain of the dipole source; 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X^m; +#X text 235 40 b = 1.536; +#X text 235 56 m = -0.245; +#X obj 88 169 max~ 1; +#X obj 88 46 sig~ 44.67; +#X obj 229 190 r myMet; +#X obj 229 211 snapshot~; +#X floatatom 230 236 5 0 0 0 - - -; +#X text 56 298 This patch calculates the correlation length associated +with the dipole source. Equation of line derived from Norberg 2001 +; +#X connect 0 0 4 0; +#X connect 2 0 8 0; +#X connect 3 0 4 1; +#X connect 4 0 2 1; +#X connect 8 0 1 0; +#X connect 8 0 11 0; +#X connect 9 0 2 0; +#X connect 10 0 11 0; +#X connect 11 0 12 0; +#X restore 956 85 pd corrLen Calc; +#X obj 956 62 r~ \$0-myRey; +#X obj 956 109 s~ \$0-myCor; +#X obj 347 222 r~ \$0-myCor; +#X obj 1067 350 hip~; +#X obj 330 445 r~ \$0-myCor; +#X obj 636 81 max 0.01; +#X obj 636 104 min 0.99; +#N canvas 93 119 976 679 Dipoles 0; +#X obj 118 66 r~ \$0-myFreq; +#X obj 397 51 r~ \$0-myFreq; +#X obj 668 44 r~ \$0-myFreq; +#X obj 816 126 r~ \$0-liftDiGain; +#X obj 668 68 *~ 5; +#X obj 397 75 *~ 3; +#X obj 139 407 r~ \$0-myFreq; +#X obj 253 492 r~ \$0-dragDiGain; +#X obj 139 435 *~ 2; +#X obj 409 406 r~ \$0-myFreq; +#X obj 550 464 r~ \$0-dragDiGain; +#X obj 409 434 *~ 4; +#X obj 550 487 *~ 0.125; +#X obj 210 183 *~; +#X obj 210 248 throw~ l; +#X obj 237 225 throw~ r; +#X obj 210 204 fcpan; +#X obj 210 108 vcf~ 3; +#X obj 237 182 r \$0-thisPan; +#X obj 210 67 r~ \$0-thisNoise; +#X obj 480 192 *~; +#X obj 480 257 throw~ l; +#X obj 507 234 throw~ r; +#X obj 480 213 fcpan; +#X obj 480 116 vcf~ 3; +#X obj 507 191 r \$0-thisPan; +#X obj 480 48 r~ \$0-thisNoise; +#X obj 750 183 *~; +#X obj 750 248 throw~ l; +#X obj 777 225 throw~ r; +#X obj 750 204 fcpan; +#X obj 750 107 vcf~ 3; +#X obj 777 182 r \$0-thisPan; +#X obj 750 38 r~ \$0-thisNoise; +#X obj 218 525 *~; +#X obj 218 590 throw~ l; +#X obj 245 567 throw~ r; +#X obj 218 546 fcpan; +#X obj 218 449 vcf~ 3; +#X obj 245 524 r \$0-thisPan; +#X obj 218 405 r~ \$0-thisNoise; +#X obj 492 523 *~; +#X obj 492 588 throw~ l; +#X obj 519 565 throw~ r; +#X obj 492 544 fcpan; +#X obj 492 447 vcf~ 3; +#X obj 519 522 r \$0-thisPan; +#X obj 492 373 r~ \$0-thisNoise; +#X text 273 27 Generates the sound associated with the lift dipole. +; +#X text 176 373 Generates the sound associated with the drag dipole. +; +#X obj 270 87 r \$0-Qval; +#X obj 523 72 r \$0-Qval; +#X obj 792 62 r \$0-Qval; +#X obj 538 394 r \$0-Qval; +#X obj 263 427 r \$0-Qval; +#X floatatom 277 122 5 0 0 0 - - -; +#X obj 210 134 vcf~ 3; +#X obj 480 138 vcf~ 3; +#X obj 750 131 vcf~ 3; +#X obj 492 468 vcf~ 3; +#X obj 218 470 vcf~ 3; +#X obj 527 143 r~ \$0-liftDiGain; +#X obj 225 156 r~ \$0-liftDiGain; +#X obj 816 148 *~ 0.1; +#X obj 523 95 * 2; +#X obj 792 84 * 4; +#X obj 533 421 * 2; +#X obj 527 165 *~ 0.6; +#X text 179 282 Fundamental; +#X text 444 288 3rd Harmonic; +#X text 729 288 5th Harmonic; +#X text 151 618 Fundamental Drag tone = 2nd Harmonic; +#X text 420 616 2 Harmonic Drag tone = 4th Harmonic; +#X connect 0 0 17 1; +#X connect 0 0 56 1; +#X connect 1 0 5 0; +#X connect 2 0 4 0; +#X connect 3 0 63 0; +#X connect 4 0 31 1; +#X connect 4 0 58 1; +#X connect 5 0 24 1; +#X connect 5 0 57 1; +#X connect 6 0 8 0; +#X connect 7 0 34 1; +#X connect 8 0 38 1; +#X connect 8 0 60 1; +#X connect 9 0 11 0; +#X connect 10 0 12 0; +#X connect 11 0 45 1; +#X connect 11 0 59 1; +#X connect 12 0 41 1; +#X connect 13 0 16 0; +#X connect 16 0 14 0; +#X connect 16 1 15 0; +#X connect 17 0 56 0; +#X connect 18 0 16 1; +#X connect 19 0 17 0; +#X connect 20 0 23 0; +#X connect 23 0 21 0; +#X connect 23 1 22 0; +#X connect 24 0 57 0; +#X connect 25 0 23 1; +#X connect 26 0 24 0; +#X connect 27 0 30 0; +#X connect 30 0 28 0; +#X connect 30 1 29 0; +#X connect 31 0 58 0; +#X connect 32 0 30 1; +#X connect 33 0 31 0; +#X connect 34 0 37 0; +#X connect 37 0 35 0; +#X connect 37 1 36 0; +#X connect 38 0 60 0; +#X connect 39 0 37 1; +#X connect 40 0 38 0; +#X connect 41 0 44 0; +#X connect 44 0 42 0; +#X connect 44 1 43 0; +#X connect 45 0 59 0; +#X connect 46 0 44 1; +#X connect 47 0 45 0; +#X connect 50 0 17 2; +#X connect 50 0 55 0; +#X connect 50 0 56 2; +#X connect 51 0 64 0; +#X connect 52 0 65 0; +#X connect 53 0 66 0; +#X connect 54 0 38 2; +#X connect 54 0 60 2; +#X connect 56 0 13 0; +#X connect 57 0 20 0; +#X connect 58 0 27 0; +#X connect 59 0 41 0; +#X connect 60 0 34 0; +#X connect 61 0 67 0; +#X connect 62 0 13 1; +#X connect 63 0 27 1; +#X connect 64 0 24 2; +#X connect 64 0 57 2; +#X connect 65 0 31 2; +#X connect 65 0 58 2; +#X connect 66 0 45 2; +#X connect 66 0 59 2; +#X connect 67 0 20 1; +#X restore 660 614 pd Dipoles; +#X obj 1088 69 noise~; +#X obj 1088 92 s~ \$0-thisNoise; +#X obj 1067 214 r~ \$0-thisNoise; +#X text 669 528 the object and environment; +#X obj 1107 280 r myMet; +#X obj 1098 302 snapshot~; +#N canvas 308 58 1027 635 StBandwidth 0; +#X obj 23 70 inlet; +#X obj 460 365 swap 1; +#X obj 460 391 /; +#X floatatom 534 431 0 0 0 0 - - -; +#X obj 460 342 / 100; +#X obj 461 434 outlet; +#X text 437 453 Q value; +#X obj 531 -36 r~ \$0-myRey; +#X obj 477 -36 r myMet; +#X obj 477 -14 snapshot~; +#X obj 203 164 spigot; +#X obj 219 187 spigot; +#X obj 236 140 > 0; +#X obj 219 233 + 0.9797; +#X floatatom 194 270 0 0 0 0 - - -; +#X obj 219 208 * 4.624e-05; +#N canvas 106 95 810 724 linearCalc 0; +#X obj 240 36 inlet; +#X obj 248 579 outlet; +#X floatatom 263 126 0 0 0 0 - - -; +#X obj 240 59 * 38.7462; +#X obj 240 81 + 0.6254; +#X text 223 3 Peak dependant on TU value; +#X obj 339 146 inlet; +#X obj 215 435 < 193260; +#X obj 182 458 spigot; +#X obj 308 457 spigot; +#X obj 341 433 > 193260; +#X obj 125 164 - 7.685; +#X obj 125 187 / 48293; +#X obj 140 210 - 145021; +#X obj 125 255 *; +#X obj 125 278 + 7.685; +#X floatatom 81 327 0 0 0 0 - - -; +#X floatatom 123 486 0 0 0 0 - - -; +#X obj 426 221 - 193260; +#X obj 411 150 swap 2.95; +#X obj 411 174 -; +#X obj 411 197 / 50060; +#X obj 411 267 *; +#X obj 140 232 t f b; +#X obj 411 302 +; +#X obj 370 273 t f b; +#X floatatom 409 328 0 0 0 0 - - -; +#X obj 426 242 t f b; +#X floatatom 405 530 0 0 0 0 - - -; +#X obj 240 102 min 200; +#X text 548 50 Calculates the peak value of DeltaF / F depending on +the TU values. The higher the TU the higher the DeltaF/F value. A limit +of 200 has been made as the value is a % and bandwidth greater than +200% would invlove -ve frequencies; +#X text -9 102 Linear up slope of the second section; +#X text 478 174 Linear down slope of the second section; +#X text 391 391 Peak of the DeltaF / F was found to be at a Reynolds +number of 193260; +#X obj 559 256 hsl 128 15 0 1e+06 0 0 empty empty empty -2 -8 0 10 +-262144 -1 -1 0 1; +#X obj 65 15 hsl 128 15 0 20 0 0 empty empty empty -2 -8 0 10 -262144 +-1 -1 0 1; +#X floatatom 566 289 0 0 0 0 - - -; +#X floatatom 66 55 0 0 0 0 - - -; +#X obj 379 460 < 243320; +#X obj 346 484 spigot; +#X obj 200 483 spigot; +#X obj 233 460 > 145021; +#X obj 392 60 *; +#X obj 403 88 +; +#X floatatom 463 120 0 0 0 0 - - -; +#X obj 495 26 * 0.05; +#X obj 424 61 * 7.89; +#X obj 452 95 + 21.64; +#X connect 3 0 4 0; +#X connect 4 0 29 0; +#X connect 7 0 8 1; +#X connect 8 0 40 0; +#X connect 9 0 39 0; +#X connect 10 0 9 1; +#X connect 11 0 12 0; +#X connect 12 0 14 0; +#X connect 13 0 23 0; +#X connect 14 0 15 0; +#X connect 15 0 16 0; +#X connect 15 0 8 0; +#X connect 18 0 27 0; +#X connect 19 0 20 0; +#X connect 19 1 20 1; +#X connect 20 0 21 0; +#X connect 21 0 22 0; +#X connect 22 0 24 0; +#X connect 23 0 14 1; +#X connect 23 1 14 0; +#X connect 24 0 26 0; +#X connect 24 0 9 0; +#X connect 25 0 24 1; +#X connect 25 1 24 0; +#X connect 27 0 22 1; +#X connect 27 1 22 0; +#X connect 29 0 2 0; +#X connect 29 0 19 0; +#X connect 29 0 25 0; +#X connect 29 0 11 0; +#X connect 34 0 10 0; +#X connect 34 0 18 0; +#X connect 34 0 13 0; +#X connect 34 0 7 0; +#X connect 34 0 36 0; +#X connect 34 0 38 0; +#X connect 34 0 41 0; +#X connect 35 0 3 0; +#X connect 35 0 37 0; +#X connect 35 0 42 1; +#X connect 35 0 42 0; +#X connect 35 0 46 0; +#X connect 38 0 39 1; +#X connect 39 0 1 0; +#X connect 39 0 28 0; +#X connect 40 0 1 0; +#X connect 40 0 17 0; +#X connect 41 0 40 1; +#X connect 42 0 45 0; +#X connect 43 0 47 0; +#X connect 45 0 43 0; +#X connect 46 0 43 1; +#X connect 47 0 44 0; +#X restore 23 92 pd linearCalc; +#X floatatom -37 134 0 0 0 0 - - -; +#X obj 56 116 > 145021; +#X obj 72 139 < 243320; +#X obj 23 140 spigot; +#X obj 39 163 spigot; +#X obj 602 150 spigot; +#X obj 618 173 spigot; +#X obj 651 149 < 1e+06; +#X obj 618 216 * 1.227e-10; +#X obj 618 196 *; +#X obj 690 215 * -8.553e-05; +#X obj 618 261 + 16.5; +#X obj 618 238 +; +#X floatatom 640 291 0 0 0 0 - - -; +#X floatatom 565 18 0 0 0 0 - - -; +#X floatatom 54 188 0 0 0 0 - - -; +#X text -84 298 First section of the Reynolds number - DeltaF/F relationship +is linear and did not appear to be reliant on current TU values; +#X text 565 329 Third section of the Reynolds number - DeltaF/F relationship +is linear and did not appear to be reliant on current TU values; +#X text 114 -16 Middle section of Reynolds number - DeltaF/F relationship +is also linear but depends on TU Value; +#X obj 461 412 max 0.005; +#X floatatom 402 435 0 0 0 0 - - -; +#X obj 707 42 > 243320; +#X obj 712 97 > 145021; +#X obj 635 126 > 193260; +#X obj 252 163 < 193260; +#X text 184 511 This patch calculates the Q values to be applied to +the bandpass filters. Future development may link this to the Turbulence +Intensity but not enough data available at time of writing to do this. +; +#X connect 0 0 16 0; +#X connect 1 0 2 0; +#X connect 1 1 2 1; +#X connect 2 0 3 0; +#X connect 2 0 36 0; +#X connect 4 0 1 0; +#X connect 7 0 9 0; +#X connect 8 0 9 0; +#X connect 9 0 24 0; +#X connect 9 0 22 0; +#X connect 9 0 12 0; +#X connect 9 0 10 0; +#X connect 9 0 31 0; +#X connect 9 0 40 0; +#X connect 9 0 41 0; +#X connect 10 0 11 0; +#X connect 11 0 15 0; +#X connect 12 0 10 1; +#X connect 13 0 14 0; +#X connect 13 0 4 0; +#X connect 15 0 13 0; +#X connect 16 0 17 0; +#X connect 16 0 20 0; +#X connect 18 0 20 1; +#X connect 19 0 21 1; +#X connect 20 0 21 0; +#X connect 21 0 32 0; +#X connect 22 0 23 0; +#X connect 23 0 27 0; +#X connect 23 0 26 1; +#X connect 23 0 26 0; +#X connect 24 0 23 1; +#X connect 25 0 29 0; +#X connect 26 0 25 0; +#X connect 27 0 29 1; +#X connect 28 0 30 0; +#X connect 28 0 4 0; +#X connect 29 0 28 0; +#X connect 36 0 5 0; +#X connect 36 0 37 0; +#X connect 40 0 22 1; +#X connect 41 0 11 1; +#X restore 1189 91 pd StBandwidth; +#X obj 1189 67 inlet; +#X obj 1189 114 s \$0-Qval; +#X obj 1098 260 r~ \$0-myFreq; +#X obj 120 65 vd~ varwind; +#X obj 60 106 s~ MY_MACH; +#X obj 817 469 outlet~; +#X obj 872 468 outlet~; +#X obj 931 470 outlet~; +#X obj 60 84 /~ 343.56; +#X connect 1 0 3 0; +#X connect 2 0 19 0; +#X connect 2 0 36 0; +#X connect 2 0 100 0; +#X connect 3 0 2 0; +#X connect 4 0 17 0; +#X connect 4 0 99 0; +#X connect 5 0 4 0; +#X connect 6 0 11 0; +#X connect 9 0 41 0; +#X connect 12 0 3 1; +#X connect 13 0 4 1; +#X connect 15 0 5 1; +#X connect 16 0 1 0; +#X connect 18 0 39 0; +#X connect 20 0 84 0; +#X connect 23 0 70 1; +#X connect 24 0 70 4; +#X connect 25 0 72 0; +#X connect 26 0 73 0; +#X connect 34 0 40 0; +#X connect 36 0 48 0; +#X connect 36 0 5 0; +#X connect 36 0 101 0; +#X connect 39 0 37 0; +#X connect 39 1 38 0; +#X connect 44 0 70 0; +#X connect 45 0 70 3; +#X connect 46 0 70 5; +#X connect 50 0 18 0; +#X connect 51 0 39 1; +#X connect 52 0 55 0; +#X connect 53 0 56 0; +#X connect 54 0 57 0; +#X connect 62 0 82 0; +#X connect 63 0 62 0; +#X connect 64 0 69 1; +#X connect 65 0 69 3; +#X connect 66 0 69 0; +#X connect 67 0 69 2; +#X connect 68 0 69 5; +#X connect 69 0 43 0; +#X connect 69 1 42 0; +#X connect 70 0 47 0; +#X connect 74 0 69 6; +#X connect 75 0 69 7; +#X connect 76 0 70 7; +#X connect 77 0 70 6; +#X connect 78 0 80 0; +#X connect 79 0 78 0; +#X connect 81 0 69 4; +#X connect 82 0 18 1; +#X connect 83 0 70 2; +#X connect 84 0 85 0; +#X connect 85 0 49 0; +#X connect 87 0 88 0; +#X connect 89 0 63 0; +#X connect 91 0 92 0; +#X connect 92 0 62 1; +#X connect 92 0 82 1; +#X connect 93 0 95 0; +#X connect 94 0 93 0; +#X connect 96 0 92 0; +#X connect 97 0 14 0; +#X connect 97 0 102 0; +#X connect 102 0 98 0;