Perceptual audio coders are widely used when storage space or streaming bandwidth for audio content is limited. If the used bitrate is low, various coding artifacts can be introduced that degrade the perceived audio quality. A suite of algorithms has been developed to conceal these coding artifacts and to improve the perceived sound quality in automotive environments. This paper is a continuation of a previous paper and introduces two post-processing algorithms for restoring the spatial signal quality of decoded compressed audio signals. Both algorithms work single-ended, i.e.~without access to the bitrate or other side information. The merit of the algorithms is demonstrated by listening tests. A previous paper presents algorithms that enhance the timbral sound characteristics.
Authors:
Uhle, Christian; Gampp, Patrick; Hellmuth, Oliver; Prokein, Peter; Herre, Jürgen; Disch, Sascha; Havenstein, Julia; Karampourniotis, Antonios
Affiliations:
Fraunhofer Institute for Integrated Circuits, Erlangen, Germany; International Audio Laboratories Erlangen, a joint institution of Fraunhofer IIS and University of Erlangen-Nürnberg, Erlangen, Germany(See document for exact affiliation information.)
AES Conference:
2017 AES International Conference on Automotive Audio (August 2017)
Paper Number:
P3-2
Publication Date:
August 29, 2017
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