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Ouvrages par thèmes

Cordes

Sélection d’articles sur le violon et la corde frottée


Askenfelt, A. (1986), "Measurement of bow motion and bow force in violin playing", Journal of the Acoustical Society of America 80, 1007-1015.
Askenfelt, A. (1989), "Measurement of the bowing parameters in violin playing ii: bow-bridge distance, dynamic-range, and limits of bow force", Journal of the Acoustical Society of America 86, 503-516.
Bissinger, G. (2004), "Contemporary generalized normal mode violin acoustics", Acta Acustica United With Acustica 90, 590-599.
Boutillon, X. (1991), "Analytical investigation of the flattening effect - The reactive power balance rule", Journal of the Acoustical Society of America 90, 754-763.
Boutillon, X. & Weinreich, G. (1999), "Three-dimensional mechanical admittance: theory and new measurement method applied to the violin bridge", Journal of the Acoustical Society of America 105, 3524-3533.
Dünnwald, H. (1990), "Ein erweitertes verfahren zur objektiven bestimmung der Klangqualität von Violinen", Acustica 71, 269-276.
Gough, C. E. (1980), "Resonant response of a violin g-string and the excitation ofthe wolf-note", Acustica 44, 113-123.
Guettler, K. & Askenfelt, A. (1997), "Acceptance limits for the duration of pre-Helmholtz transients in bowed string attacks", Journal of the Acoustical Society of America 101, 2903-2913.

Hutchins, C.M. (1981), "The acoustics of violin plates", Scientific American, 170-186.

Marshall, K. D. (1985), "Modal analysis of a violin", J. Acoust. Soc. Am. 77, 695-709.
McIntyre, M. E. & Woodhouse, J. (1978), "The acoustics of stringed musical instruments", Interdisciplinary Science Reviews 3, 157-173.
McIntyre, M. E., Schumacher, R. T. & Woodhouse, J. (1983), "On the oscillation of musical instruments", J. Acoust. Soc. Am. 74, 1325-1345.
Mellody, M. & Wakefield, G. H. (2000), "The time-frequency characteristics of violin vibrate: modal distribution analysis and synthesis", Journal of the Acoustical Society of America 107, 598-611.
Pitteroff, R. & Woodhouse, J. (1998), "Mechanics of the contact area between a violin bow and a string. part 1: reflection and transmission behaviour", Acustica 84, 543-562.
Pitteroff, R. & Woodhouse, J. (1998), "Mechanics of the contact area between a violin bow and a string. part 2: simulating the bowed string", Acustica 84, 744-757.
Pitteroff, R. & Woodhouse, J. (1998), "Mechanics of the contact area between a violin bow and a string. part 3: parameter dependence", Acustica 84, 929-946.
Schelleng, J.C. (1974), "Physics of bowed string", Scientific American 230, 87-95.
Schumacher, R. T. (1994), "Measurements of some parameters of bowing", Journal of the Acoustical Society of America 96, 1985-1998.
Schumacher, R. T. & Woodhouse, J. (1995), "Computer modeling of violin playing", Contemporary Physics 36, 79-92.
Schumacher, R. T. & Woodhouse, J. (1995), "The transient behavior of models of bowed string motion", Chaos 5, 509-523.
Smith, J. H. & Woodhouse, J. (2000), "The tribology of rosin", J. Mechanics and Physics of Solids 48, 1633-1681.
Tinnsten, M. & Carlsson, P. (2002), "Numerical optimization of violin top plates", Acta Acustica United With Acustica 88, 278-285.
Wang, L. M. & Burroughs, C. B. (2001), "Acoustic radiation from bowed violins", Journal of the Acoustical Society of America 110, 543-555.
Weinreich, G. (1985), "Sound hole sum rule and the dipole moment of the violin", J. Acoust. Soc. Am. 77, 710-718.
Weinreich, G. & Caussé, R. (1991), "Elementary stability considerations for bowed-string motion", Journal of the Acoustical Society of America 89, 887-895.
Weinreich, G. (1997), "Directional Tone Color", J. Acoust. Soc. Am. 101, 2338-2346.
Weinreich, G., Holmes, C. & Mellody, M. (2000), "Air-wood coupling and the swiss-cheese violin", Journal of the Acoustical Society of America 108, 2389-2402.
Woodhouse, J. (1993), "On the playability of violins, part 1: reflection functions", Acustica 78, 125-136.
Woodhouse, J. (1993), "On the playability of violins part 2: minimum bow force and transients", Acustica 78, 137-153.
Woodhouse, J. (1993), "Idealized models of a bowed string", Acustica 79, 233-250.
Woodhouse, J. (1994), "On the stability of bowed string motion", Acustica 80, 58-72.
Woodhouse, J., Schumacher, R. T. & Garoff, S. (2000), "Reconstruction of bowing point friction force in a bowed string", Journal of the Acoustical Society of America 108, 357-368.
Woodhouse, J. (2003), "Bowed string simulation using a thermal friction model", Acta Acustica United With Acustica 89, 355-368.
Woodhouse, J. & Galluzzo, P. M. (2004), "The bowed string as we know it today", Acta Acustica United With Acustica 90, 579-589.

 

Sélection d’articles sur le piano


Askenfelt, A. & Jansson, E. V. (1990), "From touch to string vibrations .1. Timing in the grand piano action", Journal of the Acoustical Society of America 88, 52-63.
Askenfelt, A. & Jansson, E. V. (1991), "From touch to string vibrations .2. the motion of the key and hammer", Journal of the Acoustical Society of America 90, 2383-2393.
Boutillon, X. (1988), "Model for piano hammers - experimental-determination and digital-simulation", Journal of the Acoustical Society of America 83, 746-754.
Boutillon, X. (1990), "Pianos - modèles physiques et développement technologiques", Journal de Physique 51, 811-820.
Chaigne, A. & Askenfelt, A. (1994), "Numerical simulations of piano strings .1. A physical model for a struck string using finite-difference methods", Journal of the Acoustical Society of America 95, 1112-1118.
Chaigne, A. & Askenfelt, A. (1994), "Numerical simulations of piano strings .2. Comparisons with measurements and systematic exploration of some hammer-string parameters", Journal of the Acoustical Society of America 95, 1631-1640.
Conklin, H. A. (1996), "Design and tone in the mechanoacoustic piano .1. Piano hammers and tonal effects", Journal of the Acoustical Society of America 99, 3286-3296.
Conklin, H. A. (1996), "Design and tone in the mechanoacoustic piano .2. Piano structure", Journal of the Acoustical Society of America 100, 695-708.
Conklin, H. A. (1996), "Design and tone in the mechanoacoustic piano .3. Piano strings and scale design", Journal of the Acoustical Society of America 100, 1286-1298.
Giordano, N. (1997), "Simple model of a piano soundboard", Journal of the Acoustical Society of America 102, 1159-1168.
Giordano, N. (1998), "Mechanical impedance of a piano soundboard", Journal of the Acoustical Society of America 103, 2128-2133.
Hall, D. E. & Clark, P. (1987), "Piano string excitation .4. The question of missing modes", Journal of the Acoustical Society of America 82, 1913-1918.
Hall, D. E. & Askenfelt, A. (1988), "Piano string excitation .5. Spectra for real hammers and strings", Journal of the Acoustical Society of America 83, 1627-1638.
Hall, D. E. (1992), "Piano string excitation .6. Nonlinear modeling", Journal of the Acoustical Society of America 92, 95-105.
Stulov, A. (1995), "Hysteretic model of the grand piano hammer felt", Journal of the Acoustical Society of America 97, 2577-2585.
Suzuki, H. (1986), "Vibration and sound radiation of a piano soundboard", Journal of the Acoustical Society of America 80, 1573-1582.
Suzuki, H. & Nakamura, I. (1990), "Acoustics of pianos", Applied Acoustics 30, 147-205.
Weinreich, G. (1977), "Coupled piano strings", Journal of the Acoustical Society of America 62, 1474-1484.
Weinreich, G. (1979), "Coupled motions of piano strings", Scientific American 240, 118-&.

 

Sélection étroite d’articles sur la guitare


Christensen, O. (1983), "The response of played guitars at middle frequencies", Acustica 53, 45-48.
Christensen, O. (1984), "An oscillator model for analysis of guitar sound pressure response", Acustica 54, 289-295.
Derveaux, G., Chaigne, A., Joly, P. & Beache, E. (2003), "Time-domain simulation of a guitar: model and method", Journal of the Acoustical Society of America 114, 3368-3383.
Hill, T. J. W., Richardson, B. E. & Richardson, S. J. (2004), "Acoustical parameters for the characterisation of the classical guitar", Acta Acustica United With Acustica 90, 335-348.
Le Pichon, A., Berge, S. & Chaigne, A. (1998), "Comparison between experimental and predicted radiation of a guitar", Acustica 84, 136-145.
Valimaki, V. (2004), "Physics-based modeling of musical instruments", Acta Acustica United With Acustica 90, 611-617.
Woodhouse, J. (2004), "On the synthesis of guitar plucks", Acta Acustica United With Acustica 90, 928-944.
Woodhouse, J. (2004), "Plucked guitar transients: comparison of measurements and synthesis", Acta Acustica United With Acustica 90, 945-965.

Percussions

Articles

        Généralités


        Rossing Thomas D. (1977), “Acoustics of percussion instruments – Part II'”, The Physics Teacher, 15, pp. 278-288

        Rossing Thomas D. (1976), “Acoustics of percussion instruments – Part I”, The Physics Teacher, 14, pp. 546-556

        Membranophones


        Rhaouti L., Chaigne A. and Joly P. (1999), “Time-domain modeling and numerical simulation of a kettledrum”, J. Acoust. Soc. Am. 105(6), pp. 3545-3562

        Rossing T.D., Bork I., Zhao H., Anderson C.A. and Fystrom D. (1992), “Acoustics of snare drums”, J. Acoust. Soc. Am. 92, pp. 84-94

        Aebischer H.A. and Gottlieb H.P.W. (1991), “Theoretical investigations of the annular keetleddrum as a new harmonic musical instrument”, Acustica 72, pp. 107-117, 1990; Errata: Acustica 73, pp 171-174

        Christian R.S., Davis R.E., Tubis A., Anderson C.A., Mills R.I. and Rossing T.D. (1984), “Effets of air loading on timpani membrane vibrations”, J. Acoust. Soc. Am. 76, pp. 1336-1345

        Rossing Thomas D. (1982), “The physics of kettledrums”, Scientific American 247(5), pp. 172-178

        Fletcher H. and Bassett I.G. (1978), “Some experiments with the bass drum”, J. Acoust. Soc. Am. 64, pp. 1570-1576

        Obata J. and Tesima T. (1935), “Experimental studies on the sound and vibration of drum”, J. Acoust. Soc. Am. 6, pp. 267-274

 

        Claviers


        Henrique L.L. and Antunes J. (2003), “Optimal Design and Physical Modelling of Mallet Percussion Instruments”, Acustica united with Acta Acustica 89(6)

        Bork I., Chaigne A., Trebuchet L.C, Kosfelder M. and Pillot D. (1999), “Comparison between modal analysis and finite element modeling of a marimba bar”, Acustica united with Acta Acustica 85(2), pp. 258-266

        Doutaut V., Matignon D. and Chaigne A. (1998), “Numerical simulations of xylophones. Part II: Time-domain modeling of the resonator and of the radiated sound pressure”, J. Acoust Soc. Am. 104(3), pp. 1633-1647

        Chaigne A. and Doutaut V. (1997), “Numerical simulations of xylophones. Part I: Time-domain modeling of the vibrating bars”, J. Acoust Soc. Am. 101(1), pp. 539-557

        Bork I. (1995), “Practical tuning of xylophone bars and resonators”, Applied Acoustics 46, pp. 103-127

        Orduña-Bustamente F. (1992), “Nonuniform beams with harmonically related overtones for use in percussion instruments”, J. Acoust. Soc. Am. 90(6), pp. 2935-2941, 1991; Errata: J. Acoust. Soc. Am. 91(6)

        Bork I. (1990), “Measuring the properties of mallets”, Applied Acoustics 30, pp. 207-218

        Métallophones


        Chaigne A., Touzé C. and Thomas O. (2004), “Mechanical models of musical instruments and sound synthesis: the case of gongs and cymbals”, Proceedings of the International Symposium on Musical Acoustics, Nara (Japan)

        Chaigne A., Fontaine M., Thomas 0., Ferré M. and Touzé C. (2002), “Vibrations of shallow spherical shells and gongs: a comparative study”, Forum Acusticum, Sevilla (Spain)

        Chaigne A., Touzé C. and Thomas 0. (2001), “Non-linear axisymmetric vibrations of gongs”, Proceedings of the International Symposium on Musical Acoustics, Perugia (Italy)


        Thomas 0., Touzé C. and Chaigne A. (2001), “Nonlinear behaviour of gongs through the dynamics of simple rods systems”, Proceedings of the International Symposium on Musical Acoustics, Perugia (Italy)

        Touzé C. and Chaigne A. (2000), “Lyapunov exponents from experimental time series: application to cymbal vibrations”, Acustica united with Acta Acustica 86(3), pp. 557-567

        Touzé C., Chaigne A. and Rossing T.D. (1998), “Analysis of cymbal vibrations and sound using nonlinear signal processing methods”, Proceedings of the International Symposium on Musical Acoustics

        Schedin S., Gren P.O. and Rossing T.D. (1998), “Transcient wave response of a cymbal using double-pulsed TV holography”, Physics Today 103, pp. 1217-1220

        Rossing T.D., Hampton D.S. and Hansen U.J. (1996), “Music from oil drums: The acoustics of the steel pan”, Physics Today 49(3), pp. 24-29

        Legge K.A. and Fletcher N.H. (1989), “Nonlinearity, chaos, and the sound of shallow gongs”, J. Acoust Soc. Am. 86, pp. 2439-2443

        Rossing T.D. and Perrin R. (1987), “Vibration of bells”, Applied Acoustics 20, pp. 41-70

        Rossing T.D. and Fletcher N.H. (1983), “Nonlinear vibrations in plates and gongs”, J. Acoust Soc. Am. 73, pp. 345-351

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