Add to ORKGIn the past, theoretical modelling of the motion of a bowed string has assumed that the frictional force due to the rosin on the bow was determined by the sliding speed only. Recently, it has been proposed that a better constitutive law would be to assume that the friction force is a function of the contact temperature. The predictions of these two models are compared, using the best available calibration data for the properties of the rosin and the instrument string. The main conclusion is that the thermal friction model predicts bowing behaviour which is more “benign”, in that the desired Helmholtz motion of the bowed string is established more reliably and more quickly than with the old friction model. The two models also predict differe...
By comparing the oscillations of a string subject to a load to the oscillations of that string witho...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...
Rosin is well known for its ability to excite stick–slip vibration on a violin string but the precis...
© 2017 S. Hirzel Verlag. In order to carry out meaningful "virtual" experiments on the playability o...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
An enhanced model of a bowed string is developed, incorporating several new features: realistic damp...
As first noticed by Helmholtz, strings vibrate in a “V-shape” when they are bowed correctly and a fu...
Abstract: An enhanced physical model of the bowed string presented previously [I] is explored. It ta...
An enhanced physical model of the bowed string presented previously [l] is explored. It takes into a...
This thesis describes the development of a highly refined physics-based model of a bowed string and ...
cote interne IRCAM: Weinreich91a/National audienceUsing the approach first pioneered by Raman, the H...
Slip–stick vibration driven by friction is important in many applications, and to model it well enou...
A detailed time-domain simulation is implemented to model the bowed cello string. Building on earlie...
A detailed time-domain simulation is implemented to model the bowed cello string. Building on earlie...
By comparing the oscillations of a string subject to a load to the oscillations of that string witho...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...
Rosin is well known for its ability to excite stick–slip vibration on a violin string but the precis...
© 2017 S. Hirzel Verlag. In order to carry out meaningful "virtual" experiments on the playability o...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
An enhanced model of a bowed string is developed, incorporating several new features: realistic damp...
As first noticed by Helmholtz, strings vibrate in a “V-shape” when they are bowed correctly and a fu...
Abstract: An enhanced physical model of the bowed string presented previously [I] is explored. It ta...
An enhanced physical model of the bowed string presented previously [l] is explored. It takes into a...
This thesis describes the development of a highly refined physics-based model of a bowed string and ...
cote interne IRCAM: Weinreich91a/National audienceUsing the approach first pioneered by Raman, the H...
Slip–stick vibration driven by friction is important in many applications, and to model it well enou...
A detailed time-domain simulation is implemented to model the bowed cello string. Building on earlie...
A detailed time-domain simulation is implemented to model the bowed cello string. Building on earlie...
By comparing the oscillations of a string subject to a load to the oscillations of that string witho...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...
Rosin is well known for its ability to excite stick–slip vibration on a violin string but the precis...