An enhanced model of a bowed string is developed, incorporating several new features: realistic damping, detailed coupling of body modes to both polarisations of string motion, coupling to transverse and longitudinal bow-hair motion, and coupling to vibration of the bow stick. The influence of these factors is then explored via simulations of the Schelleng diagram, to reveal trends of behaviour. The biggest influence on behaviour is found to come from the choice of model to describe the friction force at the bow, but the other factors all produce effects that may be of musical significance under certain circumstances
In the past, theoretical modelling of the motion of a bowed string has assumed that the frictional f...
This work outlines the design and implementation of an algorithm to simulate two-polarisation bowed...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...
An enhanced model of a bowed string is developed, incorporating several new features: realistic damp...
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...
As first noticed by Helmholtz, strings vibrate in a “V-shape” when they are bowed correctly and a fu...
© 2017 S. Hirzel Verlag. In order to carry out meaningful "virtual" experiments on the playability o...
An enhanced physical model of the bowed string presented previously [l] is explored. It takes into a...
Abstract: An enhanced physical model of the bowed string presented previously [I] is explored. It ta...
This thesis describes the development of a highly refined physics-based model of a bowed string and ...
In earlier motion capture studies of fast repetitive bowing patterns across two and three strings in...
It is well-known that the particular choice of bow influences the tonal qual-ity of a violin. This e...
A physically-accurate time-domain model for a plucked musical string is developed. The model incorpo...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
In the past, theoretical modelling of the motion of a bowed string has assumed that the frictional f...
This work outlines the design and implementation of an algorithm to simulate two-polarisation bowed...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...
An enhanced model of a bowed string is developed, incorporating several new features: realistic damp...
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...
As first noticed by Helmholtz, strings vibrate in a “V-shape” when they are bowed correctly and a fu...
© 2017 S. Hirzel Verlag. In order to carry out meaningful "virtual" experiments on the playability o...
An enhanced physical model of the bowed string presented previously [l] is explored. It takes into a...
Abstract: An enhanced physical model of the bowed string presented previously [I] is explored. It ta...
This thesis describes the development of a highly refined physics-based model of a bowed string and ...
In earlier motion capture studies of fast repetitive bowing patterns across two and three strings in...
It is well-known that the particular choice of bow influences the tonal qual-ity of a violin. This e...
A physically-accurate time-domain model for a plucked musical string is developed. The model incorpo...
This paper proposes a digital waveguide model of a bowed string in which the interaction between the...
In the past, theoretical modelling of the motion of a bowed string has assumed that the frictional f...
This work outlines the design and implementation of an algorithm to simulate two-polarisation bowed...
A famous theoretical prediction of the minimum bow force to maintain Helmholtz motion of a bowed str...