Title :
A hybrid virtual bass system for optimized steady-state and transient performance
Author :
Hill, Adam J. ; Hawksford, Malcolm O J
Author_Institution :
Audio Res. Lab., Univ. of Essex, Colchester, UK
Abstract :
Bandwidth extension of a constrained loudspeaker system is regularly achieved employing nonlinear bass synthesis. The method operates on the doctrine of the missing fundamental whereby humans infer the presence of a fundamental tone when presented with a signal consisting of higher harmonics of said tone. Nonlinear devices and phase vocoders are commonly used for signal generation; both exhibiting deficiencies. A system is proposed where the two approaches are used in tandem via a mixing algorithm to suppress these deficiencies. Mixing is performed by signal transient content analysis in the frequency domain using constant-Q transforms. The hybrid approach is rated subjectively against various nonlinear device and phase vocoder techniques using the MUSHRA test method.
Keywords :
audio signal processing; frequency-domain analysis; loudspeakers; transient analysis; vocoders; MUSHRA test method; bandwidth extension; constant-Q transforms; constrained loudspeaker system; frequency domain; hybrid virtual bass system; mixing algorithm; nonlinear bass synthesis; nonlinear devices; phase vocoder techniques; signal generation; signal transient content analysis; Frequency domain analysis; Harmonic analysis; Power harmonic filters; Signal resolution; Transforms; Transient analysis; Vocoders; audio; nonlinear signal processing; phase vocoder; psychoacoustics; transient detection; virtual bass;
Conference_Titel :
Computer Science and Electronic Engineering Conference (CEEC), 2010 2nd
Conference_Location :
Colchester
Print_ISBN :
978-1-4244-9029-5
DOI :
10.1109/CEEC.2010.5606489
