Title :
Auralization of streamline vorticity in computational fluid dynamics data
Author :
Volpe, Christopher R. ; Glinert, Ephraim P.
Author_Institution :
GE Corp. Res. & Dev., Schenectady, NY, USA
Abstract :
Presents a new method for auralization of the vorticity of a streamline in a vector field. This technique involves using a composite tone formed by superimposing sine waves of various amplitudes whose frequency and amplitude vary in such a way as to give the perception that the resulting sound increases or decreases endlessly in pitch without ever extending beyond the listener´s range of audible frequencies. Continuous clockwise or counterclockwise rotations of a streamline resulting from vorticity can then be displayed aurally as an apparently continuous increase or decrease in pitch.
Keywords :
flow visualisation; apparently continuously decreasing pitch; apparently continuously increasing pitch; audible frequency range; composite tone; computational fluid dynamics data; continuous streamline rotations; sine wave superimposition; streamline vorticity auralization; vector field; Audio user interfaces; Auditory displays; Auditory system; Clocks; Computational fluid dynamics; Computer science; Data visualization; Frequency; Streaming media; Temperature; Timbre;
Conference_Titel :
Visualization '97., Proceedings
Conference_Location :
Phoenix, AZ, USA
Print_ISBN :
0-8186-8262-0
DOI :
10.1109/VISUAL.1997.663856
