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618 #X connect 50 0 37 0;
|
|
r@288
|
619 #X connect 53 0 56 0;
|
|
r@288
|
620 #X connect 54 0 53 0;
|
|
r@288
|
621 #X connect 55 0 3 0;
|
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r@288
|
622 #X connect 56 0 55 0;
|
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r@288
|
623 #X connect 57 0 19 0;
|
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r@288
|
624 #X connect 58 0 57 0;
|
|
r@288
|
625 #X connect 59 0 36 0;
|
|
r@288
|
626 #X connect 60 0 59 0;
|
|
r@288
|
627 #X connect 61 0 18 0;
|
|
r@288
|
628 #X connect 62 0 61 0;
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r@288
|
629 #X connect 63 0 66 1;
|
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r@288
|
630 #X connect 64 0 7 0;
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r@288
|
631 #X connect 65 0 63 0;
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r@288
|
632 #X connect 66 0 27 0;
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|
633 #X connect 69 0 27 1;
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|
634 #X connect 70 0 50 0;
|
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r@288
|
635 #X restore 64 570 pd GoldnoiseGain;
|
|
r@288
|
636 #X text 55 617 Calculates the gain of the wake;
|
|
r@288
|
637 #X obj 467 82 s \$0-azim;
|
|
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|
638 #X obj 542 82 s \$0-elev;
|
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|
639 #X obj 135 280 r \$0-elev;
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|
640 #X obj 143 301 r \$0-azim;
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|
641 #X obj 157 549 r \$0-elev;
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|
642 #X obj 143 526 r \$0-azim;
|
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|
643 #N canvas 940 255 444 428 corrLen 0;
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|
644 #X obj 103 71 inlet~;
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r@288
|
645 #X obj 88 302 outlet~;
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r@288
|
646 #X obj 88 143 *~;
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r@288
|
647 #X obj 124 93 sig~ -0.245;
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r@288
|
648 #X obj 103 119 pow~;
|
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r@288
|
649 #X text 234 22 Y = 10^b . X^m;
|
|
r@288
|
650 #X text 235 40 b = 1.536;
|
|
r@288
|
651 #X text 235 56 m = -0.245;
|
|
r@288
|
652 #X text 51 364 Equation of line derived from Norberg 2001;
|
|
r@288
|
653 #X obj 88 169 max~ 1;
|
|
r@288
|
654 #X obj 88 46 sig~ 44.67;
|
|
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|
655 #X obj 229 285 r myMet;
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|
656 #X obj 229 308 snapshot~;
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r@288
|
657 #X floatatom 228 329 0 0 0 0 - - -;
|
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r@288
|
658 #X obj 88 272 +~;
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r@288
|
659 #X obj 104 219 inlet~;
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r@288
|
660 #X obj 203 203 r myMet;
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r@288
|
661 #X obj 203 226 snapshot~;
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|
662 #X floatatom 202 247 0 0 0 0 - - -;
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r@288
|
663 #X obj 104 244 *~ 200;
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r@288
|
664 #X connect 0 0 4 0;
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|
665 #X connect 2 0 9 0;
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|
666 #X connect 3 0 4 1;
|
|
r@288
|
667 #X connect 4 0 2 1;
|
|
r@288
|
668 #X connect 9 0 14 0;
|
|
r@288
|
669 #X connect 10 0 2 0;
|
|
r@288
|
670 #X connect 11 0 12 0;
|
|
r@288
|
671 #X connect 12 0 13 0;
|
|
r@288
|
672 #X connect 14 0 1 0;
|
|
r@288
|
673 #X connect 14 0 12 0;
|
|
r@288
|
674 #X connect 15 0 19 0;
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|
675 #X connect 15 0 17 0;
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|
676 #X connect 16 0 17 0;
|
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r@288
|
677 #X connect 17 0 18 0;
|
|
r@288
|
678 #X connect 19 0 14 1;
|
|
r@288
|
679 #X restore 956 85 pd corrLen Calc;
|
|
r@288
|
680 #X obj 956 62 r~ \$0-myRey;
|
|
r@288
|
681 #X obj 956 109 s~ \$0-myCor;
|
|
r@288
|
682 #X obj 117 240 r~ \$0-myCor;
|
|
r@288
|
683 #X obj 326 570 hip~;
|
|
r@288
|
684 #X obj 90 442 r~ \$0-myCor;
|
|
r@288
|
685 #X obj 636 81 max 0.01;
|
|
r@288
|
686 #X obj 636 104 min 0.99;
|
|
r@288
|
687 #N canvas 125 74 950 728 Dipoles 0;
|
|
r@288
|
688 #X obj 225 154 r~ \$0-liftDiGain;
|
|
r@288
|
689 #X obj 495 160 r~ \$0-liftDiGain;
|
|
r@288
|
690 #X obj 495 182 *~ 0.6;
|
|
r@288
|
691 #X obj 381 91 *~ 3;
|
|
r@288
|
692 #X obj 468 490 r~ \$0-dragDiGain;
|
|
r@288
|
693 #X obj 354 400 *~ 2;
|
|
r@288
|
694 #X obj 210 175 *~;
|
|
r@288
|
695 #X obj 210 316 throw~ l;
|
|
r@288
|
696 #X obj 237 293 throw~ r;
|
|
r@288
|
697 #X obj 210 108 vcf~ 3;
|
|
r@288
|
698 #X obj 237 249 r \$0-thisPan;
|
|
r@288
|
699 #X obj 210 67 r~ \$0-thisNoise;
|
|
r@288
|
700 #X obj 480 202 *~;
|
|
r@288
|
701 #X obj 480 341 throw~ l;
|
|
r@288
|
702 #X obj 507 318 throw~ r;
|
|
r@288
|
703 #X obj 480 116 vcf~ 3;
|
|
r@288
|
704 #X obj 507 275 r \$0-thisPan;
|
|
r@288
|
705 #X obj 480 68 r~ \$0-thisNoise;
|
|
r@288
|
706 #X obj 453 511 *~;
|
|
r@288
|
707 #X obj 453 647 throw~ l;
|
|
r@288
|
708 #X obj 480 624 throw~ r;
|
|
r@288
|
709 #X obj 453 447 vcf~ 3;
|
|
r@288
|
710 #X obj 480 581 r \$0-thisPan;
|
|
r@288
|
711 #X obj 453 403 r~ \$0-thisNoise;
|
|
r@288
|
712 #X text 273 27 Generates the sound associated with the lift dipole.
|
|
r@288
|
713 ;
|
|
r@288
|
714 #X text 312 370 Generates the sound associated with the drag dipole.
|
|
r@288
|
715 ;
|
|
r@288
|
716 #X obj 270 87 r \$0-Qval;
|
|
r@288
|
717 #X obj 530 92 r \$0-Qval;
|
|
r@288
|
718 #X obj 498 425 r \$0-Qval;
|
|
r@288
|
719 #X floatatom 277 122 5 0 0 0 - - -;
|
|
r@288
|
720 #X obj 210 134 vcf~ 3;
|
|
r@288
|
721 #X obj 480 138 vcf~ 3;
|
|
r@288
|
722 #X obj 453 468 vcf~ 3;
|
|
r@288
|
723 #X obj 55 12 inlet~;
|
|
r@288
|
724 #X obj 55 32 s~ \$0-myAeoFreq;
|
|
r@288
|
725 #X obj 109 67 r~ \$0-myAeoFreq;
|
|
r@288
|
726 #X obj 381 67 r~ \$0-myAeoFreq;
|
|
r@288
|
727 #X obj 353 402 r~ \$0-myAeoFreq;
|
|
r@288
|
728 #X obj 210 272 fcpan;
|
|
r@288
|
729 #X obj 480 297 fcpan;
|
|
r@288
|
730 #X obj 453 603 fcpan;
|
|
r@288
|
731 #X obj 210 199 spigot~;
|
|
r@288
|
732 #X obj 480 227 spigot~;
|
|
r@288
|
733 #X obj 453 535 spigot~;
|
|
r@288
|
734 #X obj 673 48 inlet;
|
|
r@288
|
735 #X text 60 485 Generate sounds associated with the Aeolian tone. Higher
|
|
r@288
|
736 harmonics have been removed compares to AES paper. This is because
|
|
r@288
|
737 they have such a small contribution in comparison to lower harmonics
|
|
r@288
|
738 and the FM spectrum during lock-in;
|
|
r@288
|
739 #X obj 210 244 *~;
|
|
r@288
|
740 #X obj 225 222 r~ \$0-reyGain;
|
|
r@288
|
741 #X obj 480 270 *~;
|
|
r@288
|
742 #X obj 495 248 r~ \$0-reyGain;
|
|
r@288
|
743 #X obj 453 577 *~;
|
|
r@288
|
744 #X obj 468 555 r~ \$0-reyGain;
|
|
r@288
|
745 #X connect 0 0 6 1;
|
|
r@288
|
746 #X connect 1 0 2 0;
|
|
r@288
|
747 #X connect 2 0 12 1;
|
|
r@288
|
748 #X connect 3 0 15 1;
|
|
r@288
|
749 #X connect 3 0 31 1;
|
|
r@288
|
750 #X connect 4 0 18 1;
|
|
r@288
|
751 #X connect 5 0 21 1;
|
|
r@288
|
752 #X connect 5 0 32 1;
|
|
r@288
|
753 #X connect 6 0 41 0;
|
|
r@288
|
754 #X connect 9 0 30 0;
|
|
r@288
|
755 #X connect 10 0 38 1;
|
|
r@288
|
756 #X connect 11 0 9 0;
|
|
r@288
|
757 #X connect 12 0 42 0;
|
|
r@288
|
758 #X connect 15 0 31 0;
|
|
r@288
|
759 #X connect 16 0 39 1;
|
|
r@288
|
760 #X connect 17 0 15 0;
|
|
r@288
|
761 #X connect 18 0 43 0;
|
|
r@288
|
762 #X connect 21 0 32 0;
|
|
r@288
|
763 #X connect 22 0 40 1;
|
|
r@288
|
764 #X connect 23 0 21 0;
|
|
r@288
|
765 #X connect 26 0 9 2;
|
|
r@288
|
766 #X connect 26 0 29 0;
|
|
r@288
|
767 #X connect 26 0 30 2;
|
|
r@288
|
768 #X connect 27 0 15 2;
|
|
r@288
|
769 #X connect 27 0 31 2;
|
|
r@288
|
770 #X connect 28 0 21 2;
|
|
r@288
|
771 #X connect 28 0 32 2;
|
|
r@288
|
772 #X connect 30 0 6 0;
|
|
r@288
|
773 #X connect 31 0 12 0;
|
|
r@288
|
774 #X connect 32 0 18 0;
|
|
r@288
|
775 #X connect 33 0 34 0;
|
|
r@288
|
776 #X connect 35 0 9 1;
|
|
r@288
|
777 #X connect 35 0 30 1;
|
|
r@288
|
778 #X connect 36 0 3 0;
|
|
r@288
|
779 #X connect 37 0 5 0;
|
|
r@288
|
780 #X connect 38 0 7 0;
|
|
r@288
|
781 #X connect 38 1 8 0;
|
|
r@288
|
782 #X connect 39 0 13 0;
|
|
r@288
|
783 #X connect 39 1 14 0;
|
|
r@288
|
784 #X connect 40 0 19 0;
|
|
r@288
|
785 #X connect 40 1 20 0;
|
|
r@288
|
786 #X connect 41 0 46 0;
|
|
r@288
|
787 #X connect 42 0 48 0;
|
|
r@288
|
788 #X connect 43 0 50 0;
|
|
r@288
|
789 #X connect 44 0 42 1;
|
|
r@288
|
790 #X connect 44 0 41 1;
|
|
r@288
|
791 #X connect 44 0 43 1;
|
|
r@288
|
792 #X connect 46 0 38 0;
|
|
r@288
|
793 #X connect 47 0 46 1;
|
|
r@288
|
794 #X connect 48 0 39 0;
|
|
r@288
|
795 #X connect 49 0 48 1;
|
|
r@288
|
796 #X connect 50 0 40 0;
|
|
r@288
|
797 #X connect 51 0 50 1;
|
|
r@288
|
798 #X restore 474 688 pd Dipoles;
|
|
r@288
|
799 #X obj 1088 69 noise~;
|
|
r@288
|
800 #X obj 1088 92 s~ \$0-thisNoise;
|
|
r@288
|
801 #X obj 326 475 r~ \$0-thisNoise;
|
|
r@288
|
802 #X text 346 367 the object and environment;
|
|
r@288
|
803 #N canvas 308 58 1027 635 StBandwidth 0;
|
|
r@288
|
804 #X obj 460 365 swap 1;
|
|
r@288
|
805 #X obj 460 391 /;
|
|
r@288
|
806 #X obj 460 342 / 100;
|
|
r@288
|
807 #X obj 461 434 outlet;
|
|
r@288
|
808 #X text 437 453 Q value;
|
|
r@288
|
809 #X obj 531 -36 r~ \$0-myRey;
|
|
r@288
|
810 #X obj 477 -36 r myMet;
|
|
r@288
|
811 #X obj 477 -14 snapshot~;
|
|
r@288
|
812 #X obj 203 164 spigot;
|
|
r@288
|
813 #X obj 219 187 spigot;
|
|
r@288
|
814 #X obj 236 140 > 0;
|
|
r@288
|
815 #X obj 219 233 + 0.9797;
|
|
r@288
|
816 #X obj 219 208 * 4.624e-05;
|
|
r@288
|
817 #X obj 602 150 spigot;
|
|
r@288
|
818 #X obj 618 173 spigot;
|
|
r@288
|
819 #X obj 651 149 < 1e+06;
|
|
r@288
|
820 #X obj 618 216 * 1.227e-10;
|
|
r@288
|
821 #X obj 618 196 *;
|
|
r@288
|
822 #X obj 690 215 * -8.553e-05;
|
|
r@288
|
823 #X obj 618 261 + 16.5;
|
|
r@288
|
824 #X obj 618 238 +;
|
|
r@288
|
825 #X text -84 298 First section of the Reynolds number - DeltaF/F relationship
|
|
r@288
|
826 is linear and did not appear to be reliant on current TU values;
|
|
r@288
|
827 #X text 565 329 Third section of the Reynolds number - DeltaF/F relationship
|
|
r@288
|
828 is linear and did not appear to be reliant on current TU values;
|
|
r@288
|
829 #X text 114 -16 Middle section of Reynolds number - DeltaF/F relationship
|
|
r@288
|
830 is also linear but depends on TU Value;
|
|
r@288
|
831 #X obj 461 412 max 0.005;
|
|
r@288
|
832 #X obj 635 126 > 193260;
|
|
r@288
|
833 #X obj 252 163 < 193260;
|
|
r@288
|
834 #X floatatom 653 40 0 0 0 0 - - -;
|
|
r@288
|
835 #X floatatom 565 452 0 0 0 0 - - -;
|
|
r@288
|
836 #X connect 0 0 1 0;
|
|
r@288
|
837 #X connect 0 1 1 1;
|
|
r@288
|
838 #X connect 1 0 24 0;
|
|
r@288
|
839 #X connect 2 0 0 0;
|
|
r@288
|
840 #X connect 5 0 7 0;
|
|
r@288
|
841 #X connect 6 0 7 0;
|
|
r@288
|
842 #X connect 7 0 15 0;
|
|
r@288
|
843 #X connect 7 0 13 0;
|
|
r@288
|
844 #X connect 7 0 10 0;
|
|
r@288
|
845 #X connect 7 0 8 0;
|
|
r@288
|
846 #X connect 7 0 25 0;
|
|
r@288
|
847 #X connect 7 0 26 0;
|
|
r@288
|
848 #X connect 7 0 27 0;
|
|
r@288
|
849 #X connect 8 0 9 0;
|
|
r@288
|
850 #X connect 9 0 12 0;
|
|
r@288
|
851 #X connect 10 0 8 1;
|
|
r@288
|
852 #X connect 11 0 2 0;
|
|
r@288
|
853 #X connect 12 0 11 0;
|
|
r@288
|
854 #X connect 13 0 14 0;
|
|
r@288
|
855 #X connect 14 0 18 0;
|
|
r@288
|
856 #X connect 14 0 17 1;
|
|
r@288
|
857 #X connect 14 0 17 0;
|
|
r@288
|
858 #X connect 15 0 14 1;
|
|
r@288
|
859 #X connect 16 0 20 0;
|
|
r@288
|
860 #X connect 17 0 16 0;
|
|
r@288
|
861 #X connect 18 0 20 1;
|
|
r@288
|
862 #X connect 19 0 2 0;
|
|
r@288
|
863 #X connect 20 0 19 0;
|
|
r@288
|
864 #X connect 24 0 3 0;
|
|
r@288
|
865 #X connect 24 0 28 0;
|
|
r@288
|
866 #X connect 25 0 13 1;
|
|
r@288
|
867 #X connect 26 0 9 1;
|
|
r@288
|
868 #X restore 1189 91 pd StBandwidth;
|
|
r@288
|
869 #X obj 1189 114 s \$0-Qval;
|
|
r@288
|
870 #X obj 412 518 r myMet;
|
|
r@288
|
871 #X obj 402 539 snapshot~;
|
|
r@288
|
872 #X text 780 18 Mass Density;
|
|
r@288
|
873 #X text 720 16 Tension;
|
|
r@288
|
874 #N canvas 389 23 542 808 NatFreq 0;
|
|
r@288
|
875 #X obj 148 86 inlet;
|
|
r@288
|
876 #X obj 109 367 inlet;
|
|
r@288
|
877 #X text 137 62 Mass Density;
|
|
r@288
|
878 #X text 55 366 Tension;
|
|
r@288
|
879 #X obj 163 155 r \$0-diameter;
|
|
r@288
|
880 #X floatatom 206 177 0 0 0 0 - - -;
|
|
r@288
|
881 #X floatatom 51 416 0 0 0 0 - - -;
|
|
r@288
|
882 #X floatatom 191 111 0 0 0 0 - - -;
|
|
r@288
|
883 #X obj 163 511 r \$0-leng;
|
|
r@288
|
884 #X text 121 669 Natural Frequency;
|
|
r@288
|
885 #X text 74 717 Patch that calcultes the natural or fundamental frequency
|
|
r@288
|
886 of a string in 1 dimension. Uses f = (1/2l) * sqrt(T/u) where u is
|
|
r@288
|
887 the linear mass density.;
|
|
r@288
|
888 #X obj 133 646 outlet~;
|
|
r@288
|
889 #X msg 148 111 \$1 10;
|
|
r@288
|
890 #X obj 148 133 line~;
|
|
r@288
|
891 #X msg 163 179 \$1 10;
|
|
r@288
|
892 #X obj 163 202 line~;
|
|
r@288
|
893 #X obj 163 224 *~ 0.5;
|
|
r@288
|
894 #X obj 163 249 *~;
|
|
r@288
|
895 #X obj 163 271 *~ 3.14159;
|
|
r@288
|
896 #X obj 148 352 *~;
|
|
r@288
|
897 #X obj 133 440 /~;
|
|
r@288
|
898 #X msg 109 389 \$1 10;
|
|
r@288
|
899 #X obj 109 413 line~;
|
|
r@288
|
900 #X obj 133 467 sqrt~;
|
|
r@288
|
901 #X msg 163 533 \$1 10;
|
|
r@288
|
902 #X obj 163 556 line~;
|
|
r@288
|
903 #X obj 163 577 *~ 2;
|
|
r@288
|
904 #X obj 149 489 sig~ 1;
|
|
r@288
|
905 #X obj 149 597 /~;
|
|
r@288
|
906 #X obj 133 621 *~;
|
|
r@288
|
907 #X obj 67 624 r myMet;
|
|
r@288
|
908 #X obj 67 647 snapshot~;
|
|
r@288
|
909 #X floatatom 67 670 0 0 0 0 - - -;
|
|
r@288
|
910 #X obj 189 374 r myMet;
|
|
r@288
|
911 #X obj 189 397 snapshot~;
|
|
r@288
|
912 #X floatatom 189 420 0 0 0 0 - - -;
|
|
r@288
|
913 #X obj 303 31 r myMet;
|
|
r@288
|
914 #X obj 303 54 snapshot~;
|
|
r@288
|
915 #X floatatom 303 77 0 0 0 0 - - -;
|
|
r@288
|
916 #X obj 207 597 r myMet;
|
|
r@288
|
917 #X obj 207 620 snapshot~;
|
|
r@288
|
918 #X floatatom 207 643 0 0 0 0 - - -;
|
|
r@288
|
919 #X obj 365 29 r myMet;
|
|
r@288
|
920 #X obj 365 52 snapshot~;
|
|
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1389 the reduced velocity is on. It keeps it locked into this path between
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1390 the values of 0.9 and 1.06. Outwith these values both legs are approx
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1391 the same.;
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r@288
|
1513 #X obj 578 161 r~ \$0-myApl;
|
|
r@288
|
1514 #X obj 548 228 +~;
|
|
r@288
|
1515 #X obj 563 140 *~ -1.12;
|
|
r@288
|
1516 #X obj 563 205 *~ 0.3;
|
|
r@288
|
1517 #X obj 458 367 *~ 0.59;
|
|
r@288
|
1518 #X obj 548 356 *~;
|
|
r@288
|
1519 #X obj 72 516 /~ 1.2;
|
|
r@288
|
1520 #X obj 482 458 +~;
|
|
r@288
|
1521 #X obj 239 227 -~ 0.9;
|
|
r@288
|
1522 #X obj 248 138 < 0.86;
|
|
r@288
|
1523 #X obj 151 226 -~ 0.89;
|
|
r@288
|
1524 #X obj -64 142 >= 0.995;
|
|
r@288
|
1525 #X floatatom 925 219 0 0 0 0 - - -;
|
|
r@288
|
1526 #X text 128 643 A/d;
|
|
r@288
|
1527 #X text -198 62 Sigmoid functions replicating the inital branch of
|
|
r@288
|
1528 the hysteresis curve.;
|
|
r@288
|
1529 #X text 151 60 Sigmoid functions replicating the lower branch of the
|
|
r@288
|
1530 hysteresis curve.;
|
|
r@288
|
1531 #X text 681 23 Test objects;
|
|
r@288
|
1532 #X obj -153 374 spigot~;
|
|
r@288
|
1533 #X text -303 477 By time decent kicks in the other sigmoids will be
|
|
r@288
|
1534 = 1 therefore the multiplication of the decending sigmoid rather than
|
|
r@288
|
1535 adding.;
|
|
r@288
|
1536 #X text 855 199 Damping input;
|
|
r@288
|
1537 #X text 864 286 Harmonic number;
|
|
r@288
|
1538 #X text -117 521 Normalises the Hysteresis plot;
|
|
r@288
|
1539 #X obj -171 17 s~ \$0-thisV;
|
|
r@288
|
1540 #X obj -30 80 r~ \$0-thisV;
|
|
r@288
|
1541 #X obj -123 199 r~ \$0-thisV;
|
|
r@288
|
1542 #X obj -35 197 r~ \$0-thisV;
|
|
r@288
|
1543 #X obj 26 266 r~ \$0-thisV;
|
|
r@288
|
1544 #X obj 58 403 r~ \$0-thisV;
|
|
r@288
|
1545 #X obj -6 560 r~ \$0-thisV;
|
|
r@288
|
1546 #X obj 151 203 r~ \$0-thisV;
|
|
r@288
|
1547 #X obj 270 76 r~ \$0-thisV;
|
|
r@288
|
1548 #X obj 238 205 r~ \$0-thisV;
|
|
r@288
|
1549 #X obj 304 269 r~ \$0-thisV;
|
|
r@288
|
1550 #X text 424 241 Low Re route;
|
|
r@288
|
1551 #X text 468 125 High Re route;
|
|
r@288
|
1552 #X text 715 422 Clipped to match the range given in Govardhan paper
|
|
r@288
|
1553 as well as to stop the value exploding after 1.5;
|
|
r@288
|
1554 #X obj 587 409 <= 500;
|
|
r@288
|
1555 #X msg 622 -11 1.6 30000;
|
|
r@288
|
1556 #X msg 695 0 0.4 30000;
|
|
r@288
|
1557 #X obj -171 -5 inlet~;
|
|
r@288
|
1558 #X obj 72 560 clip~ 0 2;
|
|
r@288
|
1559 #X obj 799 352 clip~ 0 1.5;
|
|
r@288
|
1560 #X obj 72 538 *~;
|
|
r@288
|
1561 #X obj 871 17 s \$0-thisHarm;
|
|
r@288
|
1562 #X obj 829 224 r \$0-thisHarm;
|
|
r@288
|
1563 #X msg 814 289 \$1 40;
|
|
r@288
|
1564 #X obj 72 581 snapshot~;
|
|
r@288
|
1565 #X obj 164 562 r myMet;
|
|
r@288
|
1566 #X obj 72 622 vline~;
|
|
r@288
|
1567 #X msg 72 601 \$1 50;
|
|
r@288
|
1568 #X text 124 607 Smoothing;
|
|
r@288
|
1569 #X text 234 594 This patch takes the Reduced Velocity V value \, (\$0-thisV)
|
|
r@288
|
1570 and calculates the corresponding value of maximum vibration \, A/d.
|
|
r@288
|
1571 ;
|
|
r@288
|
1572 #X text 493 491 Calculates Amax;
|
|
r@288
|
1573 #X msg 37 37;
|
|
r@288
|
1574 #X connect 0 0 2 0;
|
|
r@288
|
1575 #X connect 0 0 3 0;
|
|
r@288
|
1576 #X connect 1 0 3 1;
|
|
r@288
|
1577 #X connect 2 0 10 1;
|
|
r@288
|
1578 #X connect 3 0 2 1;
|
|
r@288
|
1579 #X connect 4 0 5 0;
|
|
r@288
|
1580 #X connect 5 0 11 0;
|
|
r@288
|
1581 #X connect 6 0 8 0;
|
|
r@288
|
1582 #X connect 6 0 9 0;
|
|
r@288
|
1583 #X connect 7 0 9 1;
|
|
r@288
|
1584 #X connect 8 0 4 0;
|
|
r@288
|
1585 #X connect 9 0 8 1;
|
|
r@288
|
1586 #X connect 10 0 79 0;
|
|
r@288
|
1587 #X connect 11 0 54 0;
|
|
r@288
|
1588 #X connect 12 0 13 0;
|
|
r@288
|
1589 #X connect 13 0 14 0;
|
|
r@288
|
1590 #X connect 13 0 119 0;
|
|
r@288
|
1591 #X connect 19 0 18 0;
|
|
r@288
|
1592 #X connect 19 0 42 1;
|
|
r@288
|
1593 #X connect 19 1 17 0;
|
|
r@288
|
1594 #X connect 19 1 79 1;
|
|
r@288
|
1595 #X connect 20 0 22 0;
|
|
r@288
|
1596 #X connect 20 0 23 0;
|
|
r@288
|
1597 #X connect 21 0 23 1;
|
|
r@288
|
1598 #X connect 22 0 29 1;
|
|
r@288
|
1599 #X connect 23 0 22 1;
|
|
r@288
|
1600 #X connect 24 0 66 0;
|
|
r@288
|
1601 #X connect 25 0 27 0;
|
|
r@288
|
1602 #X connect 25 0 28 0;
|
|
r@288
|
1603 #X connect 26 0 28 1;
|
|
r@288
|
1604 #X connect 27 0 24 0;
|
|
r@288
|
1605 #X connect 28 0 27 1;
|
|
r@288
|
1606 #X connect 29 0 42 0;
|
|
r@288
|
1607 #X connect 30 0 32 0;
|
|
r@288
|
1608 #X connect 30 0 33 0;
|
|
r@288
|
1609 #X connect 31 0 33 1;
|
|
r@288
|
1610 #X connect 32 0 43 0;
|
|
r@288
|
1611 #X connect 33 0 32 1;
|
|
r@288
|
1612 #X connect 34 0 35 0;
|
|
r@288
|
1613 #X connect 35 1 36 1;
|
|
r@288
|
1614 #X connect 36 0 29 0;
|
|
r@288
|
1615 #X connect 37 0 114 0;
|
|
r@288
|
1616 #X connect 38 0 58 0;
|
|
r@288
|
1617 #X connect 39 0 38 0;
|
|
r@288
|
1618 #X connect 39 0 40 0;
|
|
r@288
|
1619 #X connect 41 0 39 0;
|
|
r@288
|
1620 #X connect 42 1 37 0;
|
|
r@288
|
1621 #X connect 43 0 34 0;
|
|
r@288
|
1622 #X connect 44 0 45 0;
|
|
r@288
|
1623 #X connect 45 0 46 0;
|
|
r@288
|
1624 #X connect 45 0 117 0;
|
|
r@288
|
1625 #X connect 47 1 54 1;
|
|
r@288
|
1626 #X connect 48 0 49 0;
|
|
r@288
|
1627 #X connect 49 0 47 0;
|
|
r@288
|
1628 #X connect 50 0 52 0;
|
|
r@288
|
1629 #X connect 50 0 53 0;
|
|
r@288
|
1630 #X connect 51 0 53 1;
|
|
r@288
|
1631 #X connect 52 0 48 0;
|
|
r@288
|
1632 #X connect 53 0 52 1;
|
|
r@288
|
1633 #X connect 54 0 10 0;
|
|
r@288
|
1634 #X connect 56 0 61 0;
|
|
r@288
|
1635 #X connect 57 0 60 0;
|
|
r@288
|
1636 #X connect 59 0 151 0;
|
|
r@288
|
1637 #X connect 60 0 21 0;
|
|
r@288
|
1638 #X connect 61 0 1 0;
|
|
r@288
|
1639 #X connect 62 0 80 0;
|
|
r@288
|
1640 #X connect 62 0 120 0;
|
|
r@288
|
1641 #X connect 63 0 67 0;
|
|
r@288
|
1642 #X connect 64 0 65 0;
|
|
r@288
|
1643 #X connect 65 0 26 0;
|
|
r@288
|
1644 #X connect 66 0 125 0;
|
|
r@288
|
1645 #X connect 67 0 31 0;
|
|
r@288
|
1646 #X connect 68 0 51 0;
|
|
r@288
|
1647 #X connect 69 0 41 0;
|
|
r@288
|
1648 #X connect 70 0 7 0;
|
|
r@288
|
1649 #X connect 71 0 41 0;
|
|
r@288
|
1650 #X connect 72 0 73 0;
|
|
r@288
|
1651 #X connect 73 0 74 0;
|
|
r@288
|
1652 #X connect 74 0 75 0;
|
|
r@288
|
1653 #X connect 75 0 94 0;
|
|
r@288
|
1654 #X connect 78 0 80 1;
|
|
r@288
|
1655 #X connect 78 1 80 0;
|
|
r@288
|
1656 #X connect 79 1 37 1;
|
|
r@288
|
1657 #X connect 80 0 153 0;
|
|
r@288
|
1658 #X connect 81 0 83 0;
|
|
r@288
|
1659 #X connect 82 0 83 0;
|
|
r@288
|
1660 #X connect 83 0 84 0;
|
|
r@288
|
1661 #X connect 83 0 144 0;
|
|
r@288
|
1662 #X connect 85 0 115 1;
|
|
r@288
|
1663 #X connect 86 1 115 0;
|
|
r@288
|
1664 #X connect 87 0 88 0;
|
|
r@288
|
1665 #X connect 88 0 90 0;
|
|
r@288
|
1666 #X connect 89 0 88 1;
|
|
r@288
|
1667 #X connect 90 0 91 0;
|
|
r@288
|
1668 #X connect 91 0 113 1;
|
|
r@288
|
1669 #X connect 92 0 91 1;
|
|
r@288
|
1670 #X connect 93 0 94 1;
|
|
r@288
|
1671 #X connect 94 0 149 0;
|
|
r@288
|
1672 #X connect 96 0 98 0;
|
|
r@288
|
1673 #X connect 97 0 112 0;
|
|
r@288
|
1674 #X connect 98 0 101 1;
|
|
r@288
|
1675 #X connect 99 0 86 0;
|
|
r@288
|
1676 #X connect 100 0 101 0;
|
|
r@288
|
1677 #X connect 101 0 103 0;
|
|
r@288
|
1678 #X connect 102 0 97 0;
|
|
r@288
|
1679 #X connect 102 0 97 1;
|
|
r@288
|
1680 #X connect 103 0 99 0;
|
|
r@288
|
1681 #X connect 104 0 110 0;
|
|
r@288
|
1682 #X connect 105 0 111 0;
|
|
r@288
|
1683 #X connect 106 0 107 0;
|
|
r@288
|
1684 #X connect 107 0 109 0;
|
|
r@288
|
1685 #X connect 108 0 105 0;
|
|
r@288
|
1686 #X connect 108 0 105 1;
|
|
r@288
|
1687 #X connect 109 0 113 0;
|
|
r@288
|
1688 #X connect 110 0 107 1;
|
|
r@288
|
1689 #X connect 111 0 109 1;
|
|
r@288
|
1690 #X connect 112 0 103 1;
|
|
r@288
|
1691 #X connect 113 0 85 0;
|
|
r@288
|
1692 #X connect 114 0 150 0;
|
|
r@288
|
1693 #X connect 115 0 150 1;
|
|
r@288
|
1694 #X connect 116 0 68 0;
|
|
r@288
|
1695 #X connect 117 0 11 1;
|
|
r@288
|
1696 #X connect 117 0 47 1;
|
|
r@288
|
1697 #X connect 117 0 55 0;
|
|
r@288
|
1698 #X connect 118 0 70 0;
|
|
r@288
|
1699 #X connect 119 0 35 1;
|
|
r@288
|
1700 #X connect 119 0 125 1;
|
|
r@288
|
1701 #X connect 125 0 36 0;
|
|
r@288
|
1702 #X connect 131 0 13 0;
|
|
r@288
|
1703 #X connect 132 0 64 0;
|
|
r@288
|
1704 #X connect 133 0 63 0;
|
|
r@288
|
1705 #X connect 134 0 57 0;
|
|
r@288
|
1706 #X connect 135 0 19 0;
|
|
r@288
|
1707 #X connect 136 0 16 0;
|
|
r@288
|
1708 #X connect 137 0 118 0;
|
|
r@288
|
1709 #X connect 138 0 45 0;
|
|
r@288
|
1710 #X connect 139 0 116 0;
|
|
r@288
|
1711 #X connect 140 0 56 0;
|
|
r@288
|
1712 #X connect 144 0 85 1;
|
|
r@288
|
1713 #X connect 144 0 86 1;
|
|
r@288
|
1714 #X connect 145 0 41 0;
|
|
r@288
|
1715 #X connect 146 0 41 0;
|
|
r@288
|
1716 #X connect 147 0 130 0;
|
|
r@288
|
1717 #X connect 148 0 16 1;
|
|
r@288
|
1718 #X connect 148 0 154 0;
|
|
r@288
|
1719 #X connect 149 0 95 0;
|
|
r@288
|
1720 #X connect 150 0 148 0;
|
|
r@288
|
1721 #X connect 152 0 78 0;
|
|
r@288
|
1722 #X connect 152 0 77 0;
|
|
r@288
|
1723 #X connect 153 0 93 0;
|
|
r@288
|
1724 #X connect 154 0 157 0;
|
|
r@288
|
1725 #X connect 155 0 154 0;
|
|
r@288
|
1726 #X connect 156 0 15 0;
|
|
r@288
|
1727 #X connect 157 0 156 0;
|
|
r@288
|
1728 #X restore 1161 268 pd SimpHyst;
|
|
r@288
|
1729 #X obj 1161 207 r~ \$0-redVel;
|
|
r@288
|
1730 #X obj 1192 227 r \$0-dampPar;
|
|
r@288
|
1731 #X obj 1224 246 r \$0-harmNo;
|
|
r@288
|
1732 #X obj 1161 288 s~ \$0-AdVal;
|
|
r@288
|
1733 #X obj 1265 484 r~ \$0-AdVal;
|
|
r@288
|
1734 #N canvas 361 196 756 527 FMout 0;
|
|
r@288
|
1735 #X obj 170 -2 inlet~;
|
|
r@288
|
1736 #X obj -67 61 osc~;
|
|
r@288
|
1737 #X obj -67 384 throw~ l;
|
|
r@288
|
1738 #X obj -56 363 throw~ r;
|
|
r@288
|
1739 #X obj -67 -10 inlet~;
|
|
r@288
|
1740 #X obj -52 15 inlet~;
|
|
r@288
|
1741 #X obj -67 343 spigot~;
|
|
r@288
|
1742 #X obj -67 37 +~;
|
|
r@288
|
1743 #X obj -48 188 osc~;
|
|
r@288
|
1744 #X obj -67 232 +~;
|
|
r@288
|
1745 #X obj -3 118 r mod;
|
|
r@288
|
1746 #X obj -48 95 inlet~;
|
|
r@288
|
1747 #X obj -33 118 osc~;
|
|
r@288
|
1748 #X obj -33 142 *~ 1;
|
|
r@288
|
1749 #X obj -48 164 +~;
|
|
r@288
|
1750 #X text -40 31 Modulation frequency;
|
|
r@288
|
1751 #X text 81 -24 A/d - max vibration;
|
|
r@288
|
1752 #X text -46 80 Difference frequency;
|
|
r@288
|
1753 #X obj 170 20 s~ \$0-myAd;
|
|
r@288
|
1754 #X obj -52 251 r~ \$0-myAd;
|
|
r@288
|
1755 #X text -191 -32 Fv \, vortex shedding freq;
|
|
r@288
|
1756 #X obj 1 320 inlet;
|
|
r@288
|
1757 #X text 35 322 on/off;
|
|
r@288
|
1758 #X obj -67 321 *~ 5e-05;
|
|
r@288
|
1759 #X obj -67 273 *~;
|
|
r@288
|
1760 #X text -329 265 Vibration value as calculated in SimpHyst;
|
|
r@288
|
1761 #X text -399 56 High Frequency FM Spectrum around the vortex shedding
|
|
r@288
|
1762 frequency;
|
|
r@288
|
1763 #X text -405 204 Low Frequency spectrum around the difference frequency
|
|
r@288
|
1764 ;
|
|
r@288
|
1765 #X text -432 328 Gain value to strike a balance between the FM spectrums
|
|
r@288
|
1766 and the output from the dipoles due to the Aeolian Tone;
|
|
r@288
|
1767 #X text -235 449 Patch that calculates the full FM spectrum and scales
|
|
r@288
|
1768 it according to the vibration amount A as well as a ratio to the Aeolian
|
|
r@288
|
1769 tone dipoles.;
|
|
r@288
|
1770 #X text 6 376 Send signal to the DAC;
|
|
r@288
|
1771 #X text 11 203 LF Spectrum is at lower level that HF one;
|
|
r@288
|
1772 #X obj -48 208 *~ 0.1;
|
|
r@288
|
1773 #X obj -67 300 *~;
|
|
r@288
|
1774 #X obj -36 274 r~ \$0-reyGain;
|
|
r@288
|
1775 #X connect 0 0 18 0;
|
|
r@288
|
1776 #X connect 1 0 9 0;
|
|
r@288
|
1777 #X connect 4 0 7 0;
|
|
r@288
|
1778 #X connect 5 0 7 1;
|
|
r@288
|
1779 #X connect 6 0 2 0;
|
|
r@288
|
1780 #X connect 6 0 3 0;
|
|
r@288
|
1781 #X connect 7 0 1 0;
|
|
r@288
|
1782 #X connect 8 0 32 0;
|
|
r@288
|
1783 #X connect 9 0 24 0;
|
|
r@288
|
1784 #X connect 10 0 13 1;
|
|
r@288
|
1785 #X connect 11 0 14 0;
|
|
r@288
|
1786 #X connect 11 0 12 0;
|
|
r@288
|
1787 #X connect 12 0 13 0;
|
|
r@288
|
1788 #X connect 13 0 14 1;
|
|
r@288
|
1789 #X connect 14 0 8 0;
|
|
r@288
|
1790 #X connect 19 0 24 1;
|
|
r@288
|
1791 #X connect 21 0 6 1;
|
|
r@288
|
1792 #X connect 23 0 6 0;
|
|
r@288
|
1793 #X connect 24 0 33 0;
|
|
r@288
|
1794 #X connect 32 0 9 1;
|
|
r@288
|
1795 #X connect 33 0 23 0;
|
|
r@288
|
1796 #X connect 34 0 33 1;
|
|
r@288
|
1797 #X restore 1221 504 pd FMout;
|
|
r@288
|
1798 #X obj 727 526 s~ \$0-vorFreq;
|
|
r@288
|
1799 #X obj 474 647 r~ \$0-vorFreq;
|
|
r@288
|
1800 #X obj 1221 401 r~ \$0-vorFreq;
|
|
r@288
|
1801 #X obj 1039 419 r~ \$0-vorFreq;
|
|
r@288
|
1802 #X obj 1176 650 r \$0-vorFreq;
|
|
r@288
|
1803 #X obj 808 506 s \$0-vorFreq;
|
|
r@288
|
1804 #X text 773 299 Calcs Harmonic No;
|
|
r@288
|
1805 #X obj 906 622 r \$0-harmNo;
|
|
r@288
|
1806 #X obj 885 602 r~ \$0-thisNatF;
|
|
r@288
|
1807 #X obj 885 643 *~ 1;
|
|
r@288
|
1808 #X obj 870 582 r~ \$0-vorFreq;
|
|
r@288
|
1809 #X obj 870 663 /~;
|
|
r@288
|
1810 #X obj 921 685 r myMet;
|
|
r@288
|
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r@288
|
2119 #X connect 201 0 200 0;
|
|
r@288
|
2120 #X connect 202 0 201 0;
|
|
r@288
|
2121 #X connect 203 0 128 0;
|
|
r@288
|
2122 #X connect 204 0 5 0;
|
|
r@288
|
2123 #X connect 204 0 116 0;
|
|
r@288
|
2124 #X connect 204 0 205 0;
|
|
r@288
|
2125 #X connect 204 0 207 4;
|
|
r@288
|
2126 #X connect 205 0 206 0;
|
|
r@288
|
2127 #X connect 208 0 209 0;
|
|
r@288
|
2128 #X connect 209 0 210 0;
|
|
r@288
|
2129 #X connect 212 0 204 0;
|
|
r@288
|
2130 #X connect 213 0 204 0;
|
|
r@288
|
2131 #X connect 214 0 211 0;
|
|
r@288
|
2132 #X connect 214 0 125 0;
|
|
r@288
|
2133 #X connect 215 0 204 0;
|
|
r@288
|
2134 #X connect 216 0 204 0;
|
|
r@289
|
2135 #X connect 217 0 204 0;
|
|
r@289
|
2136 #X connect 218 0 204 0;
|
