Hydraulophones: Acoustic Musical Instruments and Expressive User Interfaces

Janzen, Ryan E.

03 January 2011

Fluid flow creates an expansive range of acoustic possibilities, particularly in the case of water, which has unique turbulence and vortex shedding properties as compared with the air of ordinary wind instruments. Sound from water flow is explained with reference to a new class of musical instruments, hydraulophones, in which oscillation originates directly from matter in its liquid state. Several hydraulophones which were realized in practical form are described. A unique user-interface consisting of a row of water jets is presented, in terms of its expressiveness, tactility, responsiveness to derivatives and integrals of displacement, and in terms of the direct physical interaction between a user and the physical process of sound production. Signal processing algorithms are introduced, which extract further information from turbulent water flow, for industrial applications as well as musical applications.

hydraulophone

acoustics

liquid

state of matter

water

oscillation

hydraulophonic

sound production

karmanizer

turbulence

Von Karman

vortex

Poiseuille

Embouchure

user interface

expressivity

suite for hydraulophone

composition

absement

presement

musical instruments

underwater

hydrophone

jet

Particle Rejection Theory

0986

0413

0537

Hydraulophones: Acoustic Musical Instruments and Expressive User Interfaces

Janzen, Ryan E.

03 January 2011

Fluid flow creates an expansive range of acoustic possibilities, particularly in the case of water, which has unique turbulence and vortex shedding properties as compared with the air of ordinary wind instruments. Sound from water flow is explained with reference to a new class of musical instruments, hydraulophones, in which oscillation originates directly from matter in its liquid state. Several hydraulophones which were realized in practical form are described. A unique user-interface consisting of a row of water jets is presented, in terms of its expressiveness, tactility, responsiveness to derivatives and integrals of displacement, and in terms of the direct physical interaction between a user and the physical process of sound production. Signal processing algorithms are introduced, which extract further information from turbulent water flow, for industrial applications as well as musical applications.

hydraulophone

acoustics

liquid

state of matter

water

oscillation

hydraulophonic

sound production

karmanizer

turbulence

Von Karman

vortex

Poiseuille

Embouchure

user interface

expressivity

suite for hydraulophone

composition

absement

presement

musical instruments

underwater

hydrophone

jet

Particle Rejection Theory

0986

0413

0537