In this paper, how the notion of violin quality is conveyed in spontaneous verbalizations by experienced violinists during preference judgments is investigated. The aims of the study were to better understand how musicians conceptualize violin quality, what aspects of the sound and the playing experience are essential, and what associations are formed between perceptual evaluation and physical description. Upon comparing violins of varying make and age, players were interviewed about their preferences using open-ended questions. Concepts of violin quality were identified and categorized based on the syntactic and linguistic analysis of musicians' responses. While perceived variations in how a violin sounds and feels, and consequently conceptualization structures, rely on the variations in style and expertise of different violinists, the broader semantic categories emerging from sensory descriptions remain common across performers with diverse musical profiles, reflecting a shared perception of physical parameter patterns that allowed the development of a musician-driven framework for understanding how the dynamic behavior of a violin might relate to its perceived quality. Implications for timbre perception and the crossmodal audio-tactile sensation of sound in music performance are discussed.
References
1.
Askenfelt
, A.
, and Jansson
, E. V.
(1992
). “On vibration sensation and finger touch in stringed instrument playing
,” Music Percept.
9
, 311
–350
.2.
Bassili
, J. N.
, and Brown
, R. D.
(2005
). “Implicit and explicit attitudes: Research, challenges, and theory
,” in The Handbook of Attitudes
, edited by D.
Albarracín
, B. T.
Johnson
, and M. P.
Zanna
(Psychology Press
, New York
), pp. 543
–574
.3.
Bellemare
, M.
, and Traube
, C.
(2005
). “Verbal description of piano timbre: Exploring performer-dependent dimensions
,” in Proceedings of the 2nd Conference on Interdisciplinary Musicology (CIM05)
, Montreal, Canada.4.
Bensa
, J.
, Dubois
, D.
, Kronland-Martinet
, R.
, and Ystad
, S.
(2005
). “Perceptive and cognitive evaluation of a piano synthesis model
,” in Computer Music Modelling and Retrieval CMMR 2004
, edited by U. K.
Wiil
(Springer-Verlag
, Berlin
), pp. 232
–245
.5.
Bernays
, M.
, and Traube
, C.
(2011
). “Verbal expression of piano timbre: Multidimensional semantic space of adjectival descriptors
,” in Proceedings of the 2011 International Symposium on Performance Science (ISPS)
, edited by A.
Williamon
, D.
Edwards
, and L.
Bartel
, European Association of Conservatoires (AEC), Toronto, Canada, pp. 299
–304
.6.
Bernays
, M.
, and Traube
, C.
(2013
). “Expressive production of piano timbre: Touch and playing techniques for timbre control in piano performance
,” in Proceedings of the 10th Sound and Music Computing Conference (SMC)
, Stockholm, Sweden, pp. 341
–346
.7.
Bien
, N.
, ten Oever
, S.
, Goebel
, R.
, and Sack
, A. T.
(2012
). “The sound of size: Crossmodal binding in pitch-size synesthesia: A combined TMS, EEG and psychophysics study
,” NeuroImage
59
, 663
–672
.8.
Brent
, W.
(2010
). “Physical and perceptual aspects of percussive timbre
,” Ph.D. thesis, University of California
, San Diego, San Diego, CA.9.
Chafe
, C.
(1993
). “Tactile audio feedback
,” in Proceedings of the 19th International Computer Music Conference (ICMC)
(Waseda
, Japan
), pp. 76
–79
.10.
Cheminée
, P.
(2009
). “Est-ce bien clair? Stabilité, instabilité et polysémie d'une forme lexicale en contexte” (“Is it clear? Stability, instability and polysemy of a lexical form in context”)
, in Le sentir et le dire: Concepts et méthodes en psychologie et linguistique cognitives (Feeling and Saying: Concepts and Methods in Psychology and Cognitive Linguistics)
, edited by D.
Dubois
(L'Harmattan
, Paris
).11.
Conrey
, F. R.
, and Smith
, E. R.
(2007
). “Attitude representation: Attitudes as patterns in a distributed, connectionist representational system
,” Soc. Cogn.
25
, 718
–735
.12.
Crisinel
, A.-S.
, and Spence
, C.
(2010
). “As bitter as a trombone: Synesthetic correspondences in nonsynesthetes between tastes/flavors and musical notes
,” Attent. Perc. Psychophys.
72
, 1994
–2002
.13.
Disley
, A. C.
, and Howard
, D. M.
(2004
). “Spectral correlates of timbral semantics relating to the pipe organ
,” in Proceedings of the Baltic-Nordic Acoustic Meeting (BNAM)
, Mariehamn, Åland.14.
Dubois
, D.
(2000
). “Categories as acts of meaning: The case of categories in olfaction and audition
,” Cogn. Sci. Quart.
1
, 35
–68
.15.
Dubois
, D.
, Guastavino
, C.
, and Raimbault
, M.
(2006
). “A cognitive approach to urban soundscapes: Using verbal data to access everyday life auditory categories
,” Acust. Acta Acust.
92
, 865
–874
.16.
Dünnwald
, H.
(1991
). “Deduction of objective quality parameters on old and new violins
,” Catgut Acoust. Soc. J. (Series II)
1
, 1
–5
.17.
Edwards
, R. M.
(1978
). “The perception of trombones
,” J. Sound Vib.
58
, 407
–424
.18.
Eitan
, Z.
, and Rothschild
, I.
(2011
). “How music touches: Musical parameters and listeners' audio-tactile metaphorical mappings
,” Psychol. Music
39
, 449
–467
.19.
Elie
, B.
, Gautier
, F.
, and David
, B.
(2014
). “Acoustic signature of violins based on bridge transfer mobility measurements
,” J. Acoust. Soc. Am.
136
, 1385
–1393
.20.
Faure
, A.
(2000
). “Des sons aux mots, comment parle-t-on du timbre musical?
” (“From sounds to words, how do we speak of musical timbre?”), Ph.D. thesis, Ecoles des Hautes Etudes en Sciences Sociales
, Paris, France.21.
Ferrer
, R.
, and Eerola
, T.
(2011
). “Semantic structures of timbre emerging from social and acoustic descriptions of music
,” EURASIP J. Audio Speech Music Process.
2011
, 11
.22.
Fontana
, F.
, Avanzini
, F.
, Järveläinen
, H.
, Papetti
, S.
, Zanini
, F.
, and Zanini
, V.
(2014
). “Perception of interactive vibrotactile cues on the acoustic grand and upright piano
,” in Proceedings of the 40th International Computer Music Conference (ICMC) and 11th Sound Music Computer Conference (SMC)
, Athens, Greece, pp. 948
–953
.23.
Fréour
, V.
, Gautier
, F.
, David
, B.
, and Curtit
, M.
(2015
). “Extraction and analysis of body-induced partials of guitar tones
,” J. Acoust. Soc. Am.
138
, 3930
–3940
.24.
Fritz
, C.
, Blackwell
, A. F.
, Cross
, I.
, Woodhouse
, J.
, and Moore
, B. C. J.
(2012a
). “Exploring violin sound quality: Investigating English timbre descriptors and correlating resynthesized acoustical modifications with perceptual properties
,” J. Acoust. Soc. Am.
131
, 783
–794
.25.
Fritz
, C.
, Curtin
, J.
, Poitevineau
, J.
, Borsarello
, H.
, Wollman
, I.
, Tao
, F.-C.
, and Ghasarossian
, T.
(2014
). “Soloist evaluations of six old Italian and six new violins
,” Proc. Natl. Acad. Sci. U.S.A.
111
, 7224
–7229
.26.
Fritz
, C.
, Curtin
, J.
, Poitevineau
, J.
, Morrel-Samuels
, P.
, and Tao
, F.-C.
(2012b
). “Player preferences among new and old violins
,” Proc. Natl. Acad. Sci. U.S.A.
109
, 760
–763
.27.
Fritz
, C.
, Muslewski
, A.
, and Dubois
, D.
(2010
). “A situated and cognitive approach of violin quality
,” in Proceedings of the 2010 International Symposium on Musical Acoustics
, Sydney and Katoomba, Australia.28.
Galembo
, A.
, and Askenfelt
, A.
(2003
). “Quality assessment of musical instruments—Effects of multimodality
,” in Proceedings of the 5th ESCOM Conference
, Hanover, Germany, pp. 441
–444
.29.
Garnier
, M.
, Henrich
, N.
, Castellengo
, M.
, Sotiropoulos
, D.
, and Dubois
, D.
(2007
). “Characterisation of voice quality in Western lyrical singing: From teachers' judgments to acoustic descriptions
,” J. Interdisc. Music Studies
1
, 62
–91
.30.
Giordano
, B. L.
, Avanzini
, F.
, Wanderley
, M. M.
, and McAdams
, S.
(2010
). “Multisensory integration in percussion performance
,” in Proceedings of the 10th French Acoustics Congress
, Lyon, France.31.
Glaser
, B. G.
(1978
). Theoretical Sensitivity: Advances in the Methodology of Grounded Theory
(Sociology Press
, Mill Valley, CA
).32.
Grieser-Painter
, J.
, and Koelsch
, S.
(2011
). “Can out-of-context musical sounds convey meaning? An ERP study on the processing of meaning in music
,” Psychophysiol.
48
, 645
–655
.33.
Grill
, T.
(2012
). “Perceptually informed organization of textural sounds
,” Ph.D. thesis, Institute of Electronic Music and Acoustics, University of Music and Performing Arts Graz
, Graz, Austria.34.
Guastavino
, C.
(2006
). “The ideal urban soundscape: Investigating the sound quality of French cities
,” Acust. Acta Acust.
92
, 945
–951
.35.
Heath
, H.
, and Cowley
, S.
(2004
). “Developing a grounded theory approach: A comparison of Glaser and Strauss
,” Int. J. Nursing Stud.
41
, 141
–150
.36.
Hermes
, K.
, Brookes
, T.
, and Hummersone
, C.
(2016
). “The harmonic centroid as a predictor of string instrument timbral clarity
,” in Proceedings of the AES 140th Convention
, Paris, France, paper 9557.37.
Hutchins
, C. M.
(1989
). “A measurable controlling factor in the tone and playing qualities of violins
,” Catgut Acoust. Soc. J. (Series II)
1
, 10
–15
.38.
Lakoff
, G.
, and Johnson
, M.
(2003
). Metaphors We Live By
(University of Chicago Press
, Chicago
).39.
Lavoie
, M.
(2013
). “Conceptualisation et communication des nuances de timbre à la guitare classique
” (“Conceptualization and communication of classical guitar timbral nuances”), Ph.D. thesis, Faculty of Music, University of Montreal
, Montreal, Quebec, Canada.40.
Loos
, U.
(1995
). “Untersuchungen zur Tragfähigkeit von Geigentönen
” (“Studies on the projection of violin tones”), Ph.D. thesis, Department of Media, University of Applied Sciences
, Düsseldorf, Germany.41.
Łukasik
, E.
(2005
). “Towards timbre-driven semantic retrieval of violins
,” in Proceedings of the 5th International Conference on Intelligent System Designs and Applications
, pp. 55
–60
.42.
Marks
, L. E.
, Szczesiul
, R.
, and Ohlott
, P.
(1986
). “On the cross-modal perception of intensity
,” J. Exp. Psych. Human Perc. Perf.
12
, 517
–534
.43.
Meinel
, H. F.
(1957
). “Regarding the sound quality of violins and a scientific basis for violin construction
,” J. Acoust. Soc. Am.
29
, 817
–822
.44.
Nykänen
, A.
, and Johansson
, Ö.
(2003
). “Development of a language for specifying saxophone timbre
,” in Proceedings of the 3rd Stockholm Music Acoustics Conference (SMAC 03)
, Stockholm, Sweden, pp. 647
–650
.45.
Obata
, S.
, and Kinoshita
, H.
(2012
). “Chin force in violin playing
,” Eur. J. Appl. Physiol.
112
, 2085
–2095
.46.
Orr
, A. W.
, Helmke
, B. P.
, Blackman
, B. R.
, and Schwartz
, M. A.
(2006
). “Mechanisms of mechanotransduction
,” Develop. Cell
10
, 11
–20
.48.
Paté
, A.
, Carrou
, J.-L.
, Navarret
, B.
, Dubois
, D.
, and Fabre
, B.
(2015
). “Influence of the electric guitar's fingerboard wood on guitarists' perception
,” Acust. Acta Acust.
101
, 347
–359
.49.
Rioux
, V.
, and Västfjäll
, D.
(2001
). “Analyses of verbal descriptions of the sound quality of a flue organ pipe
,” Music. Sci.
5
, 55
–82
.50.
Saitis
, C.
(2013
). “Evaluating violin quality: Player reliability and verbalization
,” Ph.D. thesis, Department of Music Research, McGill University
, Montreal, Canada.51.
Saitis
, C.
, Giordano
, B. L.
, Fritz
, C.
, and Scavone
, G. P.
(2011
). “Investigating the origin of inter-individual differences in the preference for violins
,” in Proceedings of the 2011 Forum Acusticum
, Aalborg, Denmark, pp. 497
–501
.52.
Saitis
, C.
, Giordano
, B. L.
, Fritz
, C.
, and Scavone
, G. P.
(2012
). “Perceptual evaluation of violins: A quantitative analysis of preference judgements by experienced players
,” J. Acoust. Soc. Am.
132
, 4002
–4012
.53.
Saitis
, C.
, Scavone
, G. P.
, Fritz
, C.
, and Giordano
, B. L.
(2015
). “Effect of task constraints on the perceptual evaluation of violins
,” Acust. Acta Acust.
101
, 382
–393
.54.
Sarlo
, R.
, Ehrlich
, D.
, and Tarazaga
, P. A.
(2016
). “Measuring violin bow force during performance
,” in Sensors and Instrumentation, Vol. 5: Proceedings of the 34th International Modal Analysis Conference (IMAC)
, edited by E.
Wee Sit
(Springer International Publishing
, Cham
), pp. 37
–46
.55.
Schleske
, M.
(2002
). “Empirical tools in contemporary violin making: Part, I. Analysis of design, materials, varnish, and normal modes
,” Catgut Acoust. Soc. J. (Series II)
4
, 50
–64
.56.
Schön
, D.
, Ystad
, S.
, Kronland-Martinet
, R.
, and Besson
, M.
(2009
). “The evocative power of sounds: Conceptual priming between words and nonverbal sounds
,” J. Cogn. Neurosci.
22
, 1026
–1035
.59.
Štĕpánek
, J.
, and Otčenášek
, Z.
(1999
). “Rustle as an attribute of timbre of stationary violin tones
,” Catgut Acoust. Soc. J. (Series II)
3
, 32
–38
.57.
Strauss
, A. L.
, and Corbin
, J. M.
(1998
). Basics of Qualitative Research: Techniques and Procedures for Developing Grounded Theory
, 2nd ed. (Sage
, Thousand Oaks, CA
).58.
Traube
, C.
(2004
). “An interdisciplinary study of the timbre of the classical guitar
,” Ph.D. thesis, Department of Music Research, McGill University
, Montreal, Canada.60.
Wallmark
, Z. T.
(2014
). “Appraising Timbre: Embodiment and Affect at the Threshold of Music and Noise
,” Ph.D. thesis, University of California
, Los Angeles, Los Angeles, CA.61.
Wollman
, I.
, Fritz
, C.
, and Poitevineau
, J.
(2014a
). “Influence of vibrotactile feedback on some perceptual features of violins
,” J. Acoust. Soc. Am.
136
, 910
–921
.62.
Wollman
, I.
, Fritz
, C.
, Poitevineau
, J.
, and McAdams
, S.
(2014b
). “Investigating the role of auditory and tactile modalities in violin quality evaluation
,” PLoS ONE
9
, e112552
.63.
Woodhouse
, J.
(1993
). “On the playability of violins. part I: Reflection functions
,” Acustica
78
, 125
–136
.64.
Zacharakis
, A.
, Pastiadis
, K.
, and Reiss
, J. D.
(2015
). “An interlanguage unification of musical timbre: Bridging semantic, perceptual, and acoustic dimensions
,” Music Percept.
32
, 394
–412
.65.
Zanoni
, M.
, Setragno
, F.
, and Sarti
, A.
(2014
). “The violin ontology
,” in Proceedings of the 9th Conference on Interdisciplinary Musicology (CIM14)
, Berlin, Germany.© 2017 Acoustical Society of America.
2017
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