TY - GEN
T1 - Efficient simulation of the yaybahar using a modal approach
AU - Russo, Riccardo
AU - Ducceschi, Michele
AU - Bilbao, Stefan
PY - 2023/9/4
Y1 - 2023/9/4
N2 - This work presents a physical model of the yaybahar, a recently invented acoustic instrument. Here, output from a bowed string is passed through a long spring, before being amplified and propagated in air via a membrane. The highly dispersive character of the spring is responsible for the typical synthetic tonal quality of this instrument. Building on previous literature, this work presents a modal discretisation of the full system, with fine control over frequency-dependent decay times, modal amplitudes and frequencies, all essential for an accurate simulation of the dispersive characteristics of reverberation. The string-bow-bridge system is also solved in the modal domain, using recently developed non-iterative numerical methods allowing for efficient simulation.
AB - This work presents a physical model of the yaybahar, a recently invented acoustic instrument. Here, output from a bowed string is passed through a long spring, before being amplified and propagated in air via a membrane. The highly dispersive character of the spring is responsible for the typical synthetic tonal quality of this instrument. Building on previous literature, this work presents a modal discretisation of the full system, with fine control over frequency-dependent decay times, modal amplitudes and frequencies, all essential for an accurate simulation of the dispersive characteristics of reverberation. The string-bow-bridge system is also solved in the modal domain, using recently developed non-iterative numerical methods allowing for efficient simulation.
UR - https://dafx23.create.aau.dk/
UR - https://www.dafx.de/paper-archive/
M3 - Conference contribution
T3 - Proceedings of the International Conference on Digital Audio Effects
SP - 1
EP - 8
BT - Proceedings of the 26th International Conference on Digital Audio Effects
CY - Copenagen
ER -