Flute acoustics: measurement, modelling and design - School of ...

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APPENDIX B. PROGRAM LISTINGS 326 /* calculate complex end corrections */ d_flanged = divz(arctanz(divz(Z_flanged, multz(j, Z0))),real(k)); d_cyl = subz(d_flanged, real(0.47 * a * pow(a / b, 0.8))); /* add empirical correction */ d_cyl = addz(d_cyl, real(CORR_OPEN_FINGER_HOLE_LENGTH * a)); Z = multz(j, multz(Z0, tanz(multz(real(k), d_cyl)))); return Z; } complex openKeyedHoleLoadZ(double f, Hole hole) { double a, d, q, h, e, w; double d_corr, d_e_on_a, k; complex Z_circ, Z0, d_circ, d_disk, Z, R; Key key = hole->key; a = hole->radius; d = key->radius; q = key->holeRadius; h = key->height; e = key->thickness; w = key->wallThickness; /* hack for classical flutes since the keyed holes have no chimneys */ if (key->chimneyHeight == 0) w = DBL_MAX; k = (2*M_PI*f)/hole->c; /* calculate the characteristic impedance */ Z0 = charZ(hole->c, hole->rho, a); /* Dalmont et al. (2001) Radiation impedance of tubes with different flanges: Numerical and experimental investigations, Journal of Sound and Vibration 244(3), 505--534, eqs. (48, 51, 52) */ d_corr = a / (3.5 * pow(h/a, 0.8) * pow(h/a + 3 * w/a, -0.4) + 30 * pow(h/d, 2.6)); /* add empirical length correction */ d_corr = d_corr + CORR_OPEN_KEYED_HOLE_LENGTH * a; if (q > 0) { d_e_on_a = 1.64*a/q - 0.15*a/d - 1.1 + e*a/(q*q); d_corr = d_corr / (1 + 5*pow(d_e_on_a, -1.35)*pow(h/a, -0.2)); } Z_circ = radiationZ(f, hole->c, hole->rho, a, w/a); /* calculate complex end corrections */ d_circ = divz(arctanz(divz(Z_circ, multz(j, Z0))),real(k)); d_disk = addz(d_circ, real(d_corr)); Z = multz(j, multz(Z0, tanz(multz(real(k), d_disk)))); /* add empirical resistance */ R = multz(Z0, real(0.4 * pow(k * a, 2))); Z = addz(Z, R);
APPENDIX B. PROGRAM LISTINGS 327 } return Z; complex holeInnerRadiationImpedance(double f, Hole hole) { double t_i; double Z0 = charZ(hole->c, hole->rho, hole->radius).Re; double k = (2*M_PI*f)/hole->c; t_i = innerRadiationLengthCorrection(hole->boreRadius, hole->radius); return imaginary(t_i * k * Z0); } complex holeSeriesImpedance(double f, Hole hole) { double a = hole->boreRadius; double b = hole->radius; double delta = b / a; double t = hole->length, t_0 = 0, t_a; double Z0 = charZ(hole->c, hole->rho, hole->boreRadius).Re; double k = (2*M_PI*f)/hole->c; if (strcmp(hole->fingering, "CLOSED") == 0) { if (hole->key == NULL) t_0 = b * (0.55 - 0.15 / cosh(9 * t / a) + 0.4 / cosh(6.5 * t / a) * (delta - 1)); t_a = closedHoleSeriesLengthCorrection(a, b, t - t_0); } else t_a = openHoleSeriesLengthCorrection(a, b); } return imaginary(t_a * k * Z0); TransferMatrix embouchureMatrix(double f, EmbouchureHole h, double entryratio, complex branchZ) { TransferMatrix m, riserMatrix, cornerMatrix, innerRadMatrix; double t_m, t_i, t_a; double radiusin, radiusout; complex Z_i, Z_a; double Z0_hole = charZ(h->c, h->rho, h->radiusin).Re; double Z0_bore = charZ(h->c, h->rho, h->boreRadius).Re; double k = (2*M_PI*f)/h->c; /* calculate the matching length correction */ t_m = matchingLengthCorrection(h->boreRadius, h->radiusin); /* introduce lossy elements to account for the discontinuity */ m = identitym(); m->B = embouchureSeriesResistance(f, h, entryratio); m->C = embouchureShuntConductance(f, h, entryratio); /* calculate the matrix (with losses) for the tube section comprising the hole and matching length */ radiusin = h->radiusin; radiusout = entryratio * h->radiusout; riserMatrix = (radiusin == radiusout) ? tubeMatrix(f, h->c, h->rho, h->length + t_m, radiusin, 1) :
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Flute acoustics: measurement, model
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To Renée iii
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v I am grateful to my parents, Ross
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vii Contents Dedication . . . . . .
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1 Chapter I Introduction The world
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CHAPTER 1. INTRODUCTION 3 Figure 1.
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CHAPTER 1. INTRODUCTION 9 construct
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CHAPTER 2. THEORY AND LITERATURE RE
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k = ω c and pressure given by p(x,
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CHAPTER 3. MEASURING ACOUSTIC IMPED
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Table 3.1: Several of the more comm
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51 Chapter IV Finger hole impedance
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CHAPTER 4. FINGER HOLE IMPEDANCE SP
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CHAPTER 5. IMPEDANCE SPECTRA OF THE
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CHAPTER 6. MATERIAL AND SURFACE EFF
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CHAPTER 7. THE EMBOUCHURE HOLE AND
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CHAPTER 7. THE EMBOUCHURE HOLE AND
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D4 E4 F4 F#4 G4 G#4 A4 A#4 B4 C5 C#
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107 Chapter VIII Software implement
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CHAPTER 8. SOFTWARE IMPLEMENTATION
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CHAPTER 9. APPLICATIONS AND FURTHER
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Tuning (cents) CHAPTER 9. APPLICATI
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Mean tuning (cents re A 400) Tuning
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APPENDIX A. IMPEDANCE SPECTRA 137 C
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APPENDIX A. IMPEDANCE SPECTRA 141 A
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