Title :
Direct-to-Indirect Acoustic Radiance Transfer
Author :
Antani, Lakulish ; Chandak, Anish ; Taylor, Micah ; Manocha, Dinesh
Author_Institution :
Dept. of Comput. Sci., Univ. of North Carolina at Chapel Hill, Chapel Hill, NC, USA
Abstract :
We present an efficient algorithm for simulating diffuse reflections of sound in a static scene. Our approach is built on recent advances in precomputed light transport techniques for visual rendering and uses them to develop an improved acoustic radiance transfer technique. We precompute a direct-to-indirect acoustic transfer operator for a scene, and use it to map direct sound incident on the surfaces of the scene to multibounce diffuse indirect sound, which is gathered at the listener to compute the final impulse response. Our algorithm decouples the transfer operator from the source position so we can efficiently update the acoustic response at the listener when the source moves. We highlight its performance on various benchmarks and observe significant speedups over prior methods based on acoustic radiance transfer.
Keywords :
acoustic radiators; acoustic signal processing; acoustic wave propagation; rendering (computer graphics); virtual reality; acoustic radiance transfer technique; acoustic response; diffuse reflection; direct-to-lndirect acoustic radiance transfer operator; impulse response; multibounce diffuse indirect sound; precomputed light transport technique; static scene; visual rendering; Acoustics; Computational modeling; Delay; Equations; Mathematical model; Rendering (computer graphics); Solid modeling; Sound propagation; precomputed transport.; radiosity; virtual reality;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2011.76
