This paper describes an experimental study of string plucking for the classical harp. Its goal is to characterize the playing parameters that play the most important roles in expressivity, and in the way harp players recognize each other, even on isolated notes—what we call the “acoustical signature” of each player. We have designed a specific experimental setup using a high-speed camera that tracks some markers on the fingers and on the string. This provides accurate three-dimensional positioning of the finger and of the string throughout the plucking action, in different musical contexts. From measurements of ten harp players, combined with measurements of the soundboard vibrations, we extract a set of parameters that finely control the initial conditions of the string’s free oscillations. Results indicate that these initial conditions are typically a complex mix of displacement and velocity, with additional rotation. Although remarkably reproducible by a single player—and the more so for professional players—we observe that some of these control parameters vary significantly from one player to another.

1.
G.
Derveaux
,
A.
Chaigne
,
P.
Joly
, and
E.
Bécache
, “
Time-domain simulation of a guitar: Model and method
,”
J. Acoust. Soc. Am.
114
,
3368
3383
(
2003
).
2.
H.
Penttinen
,
J.
Pakarinen
, and
V.
Välimäki
, “
Model-based sound synthesis of the guqin
,”
J. Acoust. Soc. Am.
120
,
4052
4063
(
2006
).
3.
A.
Griffiths
and
J.
Rimmer
,
Harp. The Grove Dictionary of Music and Musicians
, 2nd ed. (
Sadie and Tyrrell
,
Londres
,
2001
), Vol.
10
.
4.
J.-L.
Le Carrou
, “
Vibro-acoustique de la harpe de concert (Vibro-acoustics of the concert harp)
,” Ph.D. thesis,
Université du Maine
, Le Mans, France,
2006
.
5.
J.-L.
Le Carrou
,
F.
Gautier
,
F.
Kerjan
and
J.
Gilbert
, “
The string-finger interaction in the concert harp
,”
Proceedings of ISMA
,
Barcelona, Spain
,
2007
.
6.
J.-L.
Le Carrou
,
E.
Wahlen
,
E.
Brasseur
, and
J.
Gilbert
, “
Two dimensional finger-string interaction in the concert harp
,”
Proceedings of Acoustics 2008
,
Paris
, pp.
1495
1500
.
7.
I. M.
Firth
, “
On the acoustics of the harp
,”
Acustica
37
,
148
154
(
1977
).
8.
A. J.
Bell
, “
An acoustical investigation of the concert harp
,” Ph.D. thesis,
University of St Andrews
, St Andrews, Fife, UK,
1987
.
9.
J.-L.
Le Carrou
,
F.
Gautier
, and
E.
Foltête
, “
Experimental study of A0 and T1 modes of the concert harp
,”
J. Acoust. Soc. Am.
121
,
559
567
(
2007
).
10.
S.
Daltrop
,
A.
Kotlicki
, and
C.
Waltham
, “
Vibro-acoustic characteristics of an Aoyama Amphion concert harp
,”
J. Acoust. Soc. Am.
128
,
466
473
(
2010
).
11.
C.
Waltham
and
A.
Kotlicki
, “
Vibrational characteristics of harp soundboards
,”
J. Acoust. Soc. Am.
124
,
1774
1780
(
2008
).
12.
J.-L.
Le Carrou
,
Q.
Leclere
, and
F.
Gautier
, “
Some characteristics of the concert harp’s acoustic radiation
,”
J. Acoust. Soc. Am.
127
,
3203
3211
(
2010
).
13.
J.-L.
Le Carrou
,
F.
Gautier
, and
R.
Badeau
Sympathetic string modes in the concert harp
,”
Acta Acust. Acust.
95
,
744
752
(
2009
).
14.
A.
Chaigne
and
J.
Kergomard
,
Acoustique des Instruments de Musique (Acoustics of Musical Instruments)
(
Belin, Paris, France
,
2008
).
15.
N.
Giordano
,
J. P.
Winans
, II
, “
Plucked strings and the harpsichord
,”
J. Sound Vib.
224
,
455
473
(
1999
).
16.
M.
Pavlidou
, “
A physical model of the string-finger interaction on the classical guitar
,” Ph.D. thesis,
University of Wales
, Cardiff, UK,
1997
.
17.
J.
Woodhouse
, “
On the synthesis of guitar plucks
,”
Acta Acust. Acust.
90
,
928
944
(
2004
).
18.
D.
Chadefaux
,
J.-L.
Le Carrou
,
B.
Fabre
,
L.
Daudet
, and
L.
Quartier
, “
Experimental study of the plucking of the concert harp
,”
Proceedings of ISMA
,
Sydney, Katoomba
,
2010
.
19.
S. A.
El-Azim
, “
An efficient object tracking technique using block-matching algorithm
,”
Radio Science 19th National Conference of the Proceedings of NRSC
,
Alexandria, Egypt
,
2002
, pp.
427
433
.
20.
T. F.
Chan
and
L. A.
Vese
, “
Active contours without edges
,”
IEEE Trans. Image Process.
10
,
266
277
(
2001
).
21.
N. H.
Fletcher
, “
Plucked strings—a review
,”
Catgut Acoust. Soc. Newsletter
,
26
,
13
17
(
1976
).
22.
P. M.
Morse
,
Vibration and Sound
(
McGraw–Hill
,
New York
,
1948
).
23.
N. H.
Fletcher
and
T. D.
Rossing
,
The Physics of Musical Instruments
, 2nd ed. (
Springer
,
New York
,
1998
).
24.
C.
Lambourg
and
A.
Chaigne
, “
Measurements and modeling of the admittance matrix at the bridge in guitars
,”
Proceedings of the SMAC 93
,
1993
, pp.
448
453
.
25.
N.
Orio
, “
The timbre space of the classical guitar and its relationship with the plucking techniques
,”
Proceedings of ICMC
,
1999
, pp.
391
394
.
26.
C.
Traube
and
J. O.
Smith
 III
, “
Estimating the plucking point on a guitar string
,”
Proceedings of the COST G-6 Conference on Digital Audio Effects (DAFX-00)
,
Verona, Italy
,
2000
, pp.
153
158
.
27.
N. H.
Fletcher
, “
Analysis of the design and performance of harpsichords
,”
Acustica
37
,
139
147
(
1977
).
28.
T.
Smit
,
F.
Türckheim
, and
R.
Mores
, “
A highly accurate plucking mechanism for acoustical measurements of stringed instruments
,”
J. Acoust. Soc. Am.
127
,
EL222
EL226
(
2010
).
You do not currently have access to this content.