10.1515/aoa-2016-0014
Digital Synthesis of Sound Generated by Tibetan Bowls and Bells
References
Bilbao S. (2009), Numerical sound synthesis: Finite Difference Schemes and Simulation in Musical Acoustics, Wiley.
Brzeski P., Kapitaniaka T., Perlikowski P. (2015), Experimental verification of a hybrid dynamical model of the church bell, International Journal of Impact Engineering, 80, 177–184.
Budzyński G., Sankiewicz M. (2000), New Timbre of St. Catherine’s Carillon, Archives of Acoustics, 25, 2, 147–155.
Cadoz C., Luciani A., Florens J.L. (1983), Responsive input devices and sound synthesis by simulation of instrumental mechanisms, Computer Music Journal, 8, 3, 60–73.
Chih-Wei W., Chih-Fang H., Yi-Wen L. (2013), Sound analysis and synthesis of Marquis Yi of Zeng’s chime-bell set, The Journal of the Acoustical Society of America, 133, 5, 3590.
Czyżewski A., Jaroszuk J., Kostek B. (2002), Digital waveguide models of the panpipes, Archives of Acoustics, 27, 4, 303–317.
Czyżewski A., Kostek B., Zieliński S. (1996), Synthesis of organ pipe sound based on simplified physical models, Archives of Acoustics, 21, 2, 131–147.
Dobrucki A., Bolejko R. (2006), FEM and BEM computing costs for acoustical problems, Archives of Acoustics, 31, 2, 193–212.
Fauvel J., Flood R., Wilson R.J. (2006), Music and Mathematics: From Pythagoras to Fractals, Oxford University Press.
Filipek R., Wiciak J. (2005), Sound radiation of beam with shunted piezoceramics, Archives of Acoustics, 30, 4, 39–43.
Filipek R. (2013), FEM application for synthesis of coupled vibroacoustic fields in a system with impulse excitation [in Polish: Zastosowanie MES do syntezy wibroakustycznych pól sprzężonych w układach o wymuszeniu impulsowym], PhD Thesis, AGH University of Science and Technology.
Filipek R., Wiciak J. (2008), Active and passive structural acoustic control of the smart beam, The European Physical Journal – Special Topics, 154, 1, 57–63.
Fletcher N.H., Rossing T.D. (1998), The Physics of Musical Instruments, Springer.
Fletcher N.H., McGee W.T., Tarnopolsky A.Z. (2002), Bell clapper impact dynamics and the voicing of a carillon, J. Acoust. Soc. Am., 111, 3, 1437–1444.
Gołaś A., Filipek R. (2009), Numerical Simulation for the Bell Directivity Pattern Determination, Archives of Acoustics, 34, 4, 407–419.
Gołaś A. (1995), Computer methods in room and environmental acoustics [in Polish: Metody komputerowe w akustyce wnętrz i środowiska, Wydawnictwa AGH.
Inácio O., Henrique L.L., Antunes J. (2006), The Dynamics of Tibetan Singing Bowls, Acta Acoustica united with Acoustica, 92, 637–653.
Jiju A. (2014), Design of Experiments for Engineers and Scientists, Elsevier, London.
Lehr A. (1987), A Carillon of Major-Third Bells, III. From Theory to Practice, Music Perception, 4, 267–280.
Lots I.S., Stone L. (2008), Perception of musical consonance and dissonance: an outcome of neural synchronization, J. R. Soc. Interface, 5, 1429–1434.
McLachlan N., Keramati N.B. (2003), The design of bells with harmonic overtones, J. Acoust. Soc. Am., 114, 505–511.
Mańczak K. (1979), Methods for identifying the multidimensional control objects [in Polish: Metody identyfikacji wielowymiarowych obiektów sterowania], Wydawnictwa Naukowo-Techniczne, Warszawa.
Myers R., Montgomery D. (2004), Response surface methodology: A retrospective and literature survey, Journal of Quality Technology, 36, 1, 53–77.
Nowak Ł.J., Zieliński T.G. (2015), Determination of the Free-Field Acoustic Radiation Characteristics of the Vibrating Plate Structures With Arbitrary Boundary Conditions, Journal of Vibration and Acoustic, 137, 051001.
Ren Z., Yeh H., Lin M.C. (2013), Example-guided Physically Based Modal Sound Synthesis, ACM Trans. Graph., 31, 1, 1–16.
Rdzanek W.P. (2011), Structural vibroacoustics of surface elements [in Polish:Wibroakustyka strukturalna elementów powierzchniowych], Wydawnictwo Uniwersytetu Rzeszowskiego.
Rossing T.D. [Ed.], (2007), Springer Handbook of Acoustics, Springer Science & Business Media, LLC New York.
Smith J.O. III (1992), Physical Modeling using Digital Waveguides, Computer Music Journal, 16, 4, 74–91.
Sankiewicz M., Kaczmarek A., Budzyński G. (1994), Acoustic Investigation of the Carillons in Poland, Archives of Acoustics, 19, 3, 333–353.
Terwagne D., Bush J.W. (2011), Tibetan singing bowls, Nonlinearity, 24, 51–66.
Zieliński T.P. (2005), Digital signal processing [in Polish: Cyfrowe przetwarzanie sygnałów], Wydawnictwa Komunikacji i Łączności, Warszawa.
Zienkiewicz O.C., Taylor R.L. (2000), The Finite Element Method, 5th Ed., Butterworth-Heinemann, Oxford.
DOI: 10.1515/aoa-2016-0014