Books
[1] S. Bilbao.
Wave and Scattering Methods for Numerical Simulation.
John Wiley and Sons, 368 pp.,
Chichester, UK,
2004.
[2] S. Bilbao.
Numerical Sound Synthesis: Finite Difference Schemes and Simulation in Musical
Acoustics.
John Wiley and Sons, 443 pp., Chichester, UK,
2009.
Journal Articles
[3] S. Bilbao
and J. Parker. A Virtual Model of Spring Reverberation.
Accepted for publication, revised,
IEEE Transactions on Audio, Speech and
Language Processing, June, 2009.
[4] S. Bilbao.
Percussion Sound Synthesis Using Models of Nonlinear Shell
Vibration. Accepted for publication,
revised, IEEE Transactions on
Audio, Speech and Language Processing, June, 2009.
[5] S. Bilbao.
Direct Simulation for Wind Synthesis. In press, Computer Music Journal, 2009.
[6] O. Thomas and S. Bilbao.
Geometrically Nonlinear Mechanics of Plates: An Intrinsic Formulation and
a Symmetry Property of the
Nonlinear Operator. Journal of Sound and Vibration, 315(3):569–590,
2008.
[7] S. Bilbao.
A Family of Conservative Finite Difference Schemes for the Dynamical von Karman Plate
Equations. Numerical Methods for
Partial Differential Equations, 24(1):193–216, 2008.
[8] E. Motuk, R.
Woods, S. Bilbao and J. McAllister. Design Methodology for Real-Time
FPGA-Based
Sound Synthesis. IEEE Transactions
on Signal Processing, 15(12):5833–5845, 2007.
[9] S. Bilbao.
Robust physical modeling sound
synthesis for nonlinear systems. IEEE Signal Processing
Magazine, 24(2):32–41, 2007.
[10] S. Bilbao.
A Digital Plate Reverberation Algorithm. Journal of
the Audio Engineering Society,
55(3):135–144, 2007.
[11] S. Bilbao,
L. Savioja, and J. O. Smith III. Parameterized Finite
Difference Schemes for Plates: Stability,
the Reduction of Numerical
Dispersion, and Frequency Warping. IEEE Transactions on Audio, Speech
and Language Processing,
15(4)1488–1495, 2007.
[12] S. Bilbao.
Fast modal synthesis by digital waveguide extraction.
IEEE Signal Processing Letters,
13(1):1–4, 2006.
[13] J. Bensa, S. Bilbao, R. Kronland-Martinet, J.O. Smith III,
and T. Voinier. Computational Modeling
of Stiff Piano Strings Using
Digital Waveguides and Finite Differences. Acta Acustica united with
Acustica, 91:289–298, 2005.
[14] S. Bilbao
and J. O. Smith III. Energy-conserving finite difference schemes for nonlinear
strings. Acta
Acustica united with Acustica, 91:299–311, 2005.
[15] S. Bilbao.
Conservative numerical methods for nonlinear strings.
Journal of the Acoustical Society of
America,
118(5):3316–3327, 2005.
[16] S. Bilbao.
Time-varying generalizations of allpass
filters. IEEE Signal Processing Letters, 12(5):376–379,
2005.
[17] S. Bilbao.
Parameterized families of finite difference schemes for the
wave equation. Numerical Methods
for Partial Differential Equations,
20(3):463–480, 2004.
[18] J. Bensa, S. Bilbao, R. Kronland-Martinet, and J. O. Smith
III. The simulation of piano string vibration:
From physical models to finite difference
schemes and digital waveguides. Journal of the Acoustical
Society of America,
114(2):1095–1107, 2003.
[19] S. Bilbao
and J. O. Smith III. Finite difference schemes for the wave equation:
Stability, passivity and
numerical dispersion. IEEE
Transactions on Speech and Audio Processing, 11(3):255–266, 2003.
Conference
Proceedings (Refereed)
[20] J. Parker
and S. Bilbao. Spring
Reverberation: A Physical Perspective. Proceedings
of the International Digital Audio Effects Conference, Como,
Italy, September, 2009.
[21] S. Bilbao. A Modular Percussion Synthesis
Environment. Proceedings of the International Digital Audio
Effects
Conference, Como, Italy, September, 2009.
[22] M. Kahrs,
D. Skulina, S. Bilbao, and D. Campbell. An electroacoustically controlled
vibrating plate.
Accepted, New Instruments for Musical
Expression, 2009.
[23] S. Bilbao. Direct Simulation for Wind Synthesis. Proceedings
of the 11th International Conference on
Digital Audio
Effects, Helsinki, Finland, September, 2008. Winner, best
paper award.
[24] S. Bilbao
and J. ffitch. Prepared Piano Sound
Synthesis. In Proceedings of the 9th International Digital
Audio Effects
Conference, pages 77–82, Montreal, Canada, September 18-20, 2006.
[25] D. Fee, C. Cowan, S. Bilbao
and I. Ozcelik. Predictive Deconvolution and Kurtosis Maximization for
Speech Dereverberation.
In Proceedings of the European Signal Processing Conference, Florence,
Italy,
2006.
[26] S. Bilbao,
K. Arcas and A. Chaigne. A Physical Model of Plate Reverberation. In Proceedings of
the 2006 IEEE International
Conference on Acoustics, Speech, and Signal Processing, volume 5, pages
165–168, Toulouse, France,
May 2006.
[27] E. Motuk,
R. Woods and S. Bilbao. FPGA-based Hardware for Physical Modelling Sound Synthesis
by Finite Difference Schemes, 2005.
In Proceedings of the IEEE Field Programmable Technology
Conference, pages 103–110, Singapore,
December 11–14, 2005.
[28] S. Bilbao. Sound
synthesis for nonlinear plates, 2005. In Proceedings of the 8th
International Digital
Audio Effects Conference, pages 243–248, Madrid,
Spain, September 20–22, 2005.
[29] M. van Walstijn,
M. Alcorn, and S. Bilbao. Spatialization using sounding
objects, 2005. In Proceedings
of the International Computer Music
Conference, pages 291–294, Barcelona, Spain,
September 5–9,
2005.
[30] S. Bilbao.
A finite difference scheme for plate synthesis. In
Proceedings of the International Computer
Music Conference, pages 119–122, Barcelona,
Spain, September 5–9, 2005.
[31] E. Motuk, S. Bilbao, and R. Woods. Hardware implementations of finite
difference schemes for plate
synthesis. In Proceedings of the European
Signal Processing Conference, Antalya,
Turkey, September
2005.
[32] S. Bilbao.
An energy-conserving difference scheme for coupled transverse/longitudinal
nonlinear string
vibration. In Proceedings of the
European Signal Processing Conference, Antalya,
Turkey, September
2005.
[33] J. Pakarinen,
S. Bilbao, M. Karjalainen, and V. Valimaki. Energy behaviour in time-varying
fractional
delay filters for physical modeling synthesis of musical instruments. In Proceedings
of the IEEE International
Conference on Acoustics, Speech and Signal Processing, pages
1–4, Philadelphia, USA,
May
2005.
[34] E. Motuk, S. Bilbao, and R. Woods. Implementation of finite difference schemes
for the wave equation
on FPGA. In Proceedings of the IEEE
International Conference on Acoustics, Speech and Signal
Processing, volume 3, pages 237–240, Philadelphia,
USA, May 2005.
[35] S. Bilbao.
Modal-type finite difference schemes for nonlinear strings with an
energy-conservation property.
In Proceedings of the 7th International Digital Audio
Effects Conference, pages 119–124, Naples,
Italy,
October 2004.
[36] S. Bilbao.
Energy-conserving finite difference schemes for tension-modulated strings. In
Proceedings
of the IEEE International
Conference on Acoustics, Speech, and Signal Processing, volume 4, pages
285–288, Montreal, Canada,
May 2004.
[37] S. Bilbao,
J. Bensa, and R. Kronland-Martinet.
The wave digital reed: A passive formulation. In
Proceedings of the 6th International Digital Audio Effects
Conference, pages 225–230, London, England,
September 2003.
[38] J. Bensa, S. Bilbao, R. Kronland-Martinet, and J. O. Smith
III. A power-normalized non-linear lossy
piano hammer. In Proceedings of the
Stockholm Musical Acoustics Conference, pages 365–368, Stockholm,
Sweden,
August 2003.
[39] S. Bilbao,
J. Bensa, R. Kronland-Martinet,
and J. O. Smith III. From the physics of piano strings
to digital waveguides. In
Proceedings of the International Computer Music Conference, pages 45–48,
G¨oteborg, Sweden,
2002.
[40] S. Bilbao.
Digital waveguide networks as multidimensional wave digital filters. In
Proceedings of the
3rd International Conference on Digital Audio Effects, pages
49–54, Verona, Italy,
7–9 Dec. 2000.
[41] S. Bilbao.
Digital waveguide networks in inhomogeneous media. In Proceedings of the 3rd
International
Conference on Digital Audio Effects, pages 249–253, Verona,
Italy, 7–9 Dec.
2000.
[42] T. Verma, S. Bilbao, and T. Meng. The
digital prolate spheroidal
window. In Proceedings of the IEEE
International Conference on Acoustics, Speech, and Signal
Processing, volume 3, pages 1351–1354,
Atlanta, Georgia,
7–10 May 1996.
Conference
Proceedings (Invited)
[43] S. Bilbao.
Modularized physical modeling sound
synthesis. Proceedings of the International Congress
on Acoustics,
Madrid, Spain,
September, 2007. Invited paper.
[44] S. Bilbao.
Modal Representations and Computational Complexity in
Physical Modeling Sound Synthesis.
Proceedings of the International Congress on Acoustics,
Madrid, Spain,
September, 2007. Invited
paper.
[45] S. Bilbao.
Methodes Numeriques
Conservatives pour les Plaques Nonlineaires. In
Proceedings of the 8e
Congres Fran¸cais d’Acoustique,
Tours, France, April, 2006. In French. Available
on CD-ROM. Invited
paper.
[46] S. Bilbao.
Scattering metworks for beam
dynamics. In Meeting of the First International Workshop on
Generalized Applications of TLM and
Related Techniques, Czestochowa, Poland,
June 2004. Available
on line at
http://www.cmp.uea.ac.uk/web/CzestochowaWorkshop/docs/ScatteringNetworks.pdf.
Published Conference
Abstracts
[47] C. Camier,
K. Arcas, and S. Bilbao. Nonlinear vibrations of impacted rectangular plates.
Comparison
between numerical simulation and
experiments. Acoustics 08: Joint Meeting of the the
Acoustical
Society of America,
the European Acoustics Association, and the Soci´et´e
Fran¸caise d’Acoustique,
Paris,
July, 2008. In Journal of the Acoustical Society of America,
123(5):3665.
[48] C. Camier,
C. Touze, O. Thomas and S. Bilbao. Numerical study of the transition to chaos in nonlinear
forced vibrations of plates.
Acoustics 08: Joint Meeting of the the Acoustical
Society of America,
the
European Acoustics Association, and the Soci´et´e Fran¸caise
d’Acoustique, Paris, July,
2008. In Journal
of the Acoustical Society of America,
123(5):3171.
[49] K. Arcas, S. Bilbao, and Antoine Chaigne Sound synthesis of
circular plates by finite differences. Acoustics
08: Joint Meeting of the the
Acoustical Society of America,
the European Acoustics Association,
and the Soci´et´e
Fran¸caise d’Acoustique,
Paris, July, 2008. Invited paper. In Journal of the Acoustical
Society of America,
123(5):3522.
[50] S. Stevenson, D. Campbell, J.
Chick, J. Gilbert, and S. Bilbao.
Transient behaviour of human and
artificial brass players’
lips. Acoustics 08: Joint Meeting of the the
Acoustical Society of America,
the European Acoustics Association,
and the Soci´et´e Fran¸caise
d’Acoustique, Paris,
July, 2008. Invited
paper. In Journal of the Acoustical
Society of America,
123(5):3238.
[51] S. Bilbao.
Cymbal Synthesis. Acoustics 08: Joint Meeting of the the Acoustical Society of America,
the European Acoustics Association,
and the Soci´et´e Fran¸caise
d’Acoustique, Paris,
July, 2008. Invited
paper. In Journal of the Acoustical
Society of America,
123(5):3521.
[52] S. Bilbao.
Percussion Sound Synthesis. Meeting of the Acoustical
Society of America,
Honolulu, Hawaii,
December, 2006. Invited paper. In
Journal of the Acoustical Society of America,
120(5):3363.
[53] S. Bilbao.
Conservation methods for musical sound synthesis.
Meeting of the Acoustical Society of
America,
Providence, Rhode Island,
June, 2006. Invited Paper. In Journal of the
Acoustical Society of
America,
119(5):3325.
[54] S. Bilbao.
Nonlinear transverse string vibration: Model comparisons and numerical methods.
Acoustical
Society of America
Meeting, San Diego, California,
December 2004. In Journal of the Acoustical Society
of America,
116(5):2562. Invited Paper.
[55] J. Bensa, S. Bilbao, R. Kronland-Martinet, J. O. Smith III,
and Thierry Voinier. Stiff piano string
modeling:
Computational comparison between finite differences and digital waveguide.
Acoustical Society
of America
Meeting, San Diego, California,
December 2004. In Journal of the Acoustical Society
of America,
116(5):2561. Invited paper.
[56] S. Bilbao,
J. Bensa, R. Kronland-Martinet,
and J. O. Smith III. The wave digital piano hammer.
Meeting of the Acoustical Society of America,
Cancun, Mexico,
December 2002. In Journal of the
Acoustical Society of America,
112(5):2239. CD-ROM.
[57] J. Bensa, S. Bilbao, R. Kronland-Martinet, and J. O. Smith
III. Piano string modeling: From partial
differential equations to a digital
wave-guide model. Meeting of the Acoustical Society of America,
Cancun, Mexico,
December 2002. In Journal of the Acoustical Society of America,
112(5):2239. CDROM.
[58] S. Bilbao.
Reducing computational complexity in struck string physical
models. Meeting of the Acoustical
Society of America,
Honolulu, Hawaii,
6–10 Dec. 1996. In Journal of the Acoustical Society of America,
100(4):2812.
PhD Thesis
[59] S. Bilbao.
Wave and Scattering Methods for the Numerical Integration of
Partial Differential Equations.
PhD thesis, Department of Electrical
Engineering, Stanford University, 2001. Available at
http://www-ccrma.stanford.edu/˜bilbao/.
Technical Reports
[60] S. Bilbao.
Analyse-synthese et suivi de formants en temps-reel. Technical
report, 1994. IRCAM
Technical Report R4 180.1 BIL. In French.