Title :
An efficient time-varying loudness model
Author :
Ward, D. ; Athwal, Cham ; Kokuer, Munevver
Author_Institution :
Sch. of Digital Media Technol., Birmingham City Univ. Birmingham, Birmingham, UK
Abstract :
In this paper, we present an efficient loudness model applicable to time-varying sounds. We use the model of Glasberg and Moore (J. Audio Eng. Soc., 2002) as the basis for our developments, proposing a number of optimization techniques to reduce the computational complexity at each stage of the model. Efficient alternatives to computing the multi-resolution DFT, excitation pattern and pre-cochlea filter are presented. Absolute threshold and equal loudness contour predictions are computed and compared against both steady-state and time-varying loudness models to evaluate the combined accuracy of these techniques in the frequency domain. Finally, computational costs and loudness errors are quantified for a range of time-varying stimuli, demonstrating that the optimized model can execute approximately 50 times faster within tolerable error bounds.
Keywords :
acoustic signal processing; computational complexity; discrete Fourier transforms; filtering theory; frequency-domain analysis; optimisation; absolute threshold; computational complexity reduction; computational costs; equal loudness contour predictions; excitation pattern; loudness errors; multiresolution DFT; optimization techniques; pre-cochlea filter; steady-state loudness models; time-varying loudness model; time-varying sounds; time-varying stimuli; tolerable error bounds; Acoustics; Computational modeling; Discrete Fourier transforms; Ear; Frequency-domain analysis; Predictive models; Psychoacoustic models; loudness; perceptual models; psychoacoustics;
Conference_Titel :
Applications of Signal Processing to Audio and Acoustics (WASPAA), 2013 IEEE Workshop on
Conference_Location :
New Paltz, NY
DOI :
10.1109/WASPAA.2013.6701884
