Title :
Reversible FFT and MDCT via matrix lifting
Author_Institution :
Commun., Collaboration & Signal Process., Microsoft Researcb, Redmond, WA, USA
Abstract :
A reversible transform not only converts integer input to integer output, but also reconstructs the exact input from the output. It is one of the key modules for lossless and progressive-to-lossless media codecs. We have established that the closer the reversible transform is to its float counterpart, the better the compression performance of the lossless and progressive-to-lossless codecs that utilize the transform. In this work, a new design of the reversible transform based on matrix lifting is proposed. With matrix lifting, we can design a transform that is reversible, is close in transform value to its float counterpart, and can be computed via fast algorithms. A progressive-to-lossless embedded audio codec employing the reversible MDCT with matrix lifting is implemented. Superior results on lossless and lossy audio compression are demonstrated.
Keywords :
audio coding; codecs; data compression; discrete cosine transforms; fast Fourier transforms; matrix algebra; signal reconstruction; transform coding; MDCT; compression performance; embedded audio codec; lossless media codecs; lossy audio compression; matrix lifting; progressive-to-lossless media codecs; reversible FFT; reversible transform; signal reconstruction; Codecs; Collaboration; Counting circuits; Discrete transforms; Entropy coding; Matrix converters; Noise generators; Noise reduction; Performance loss; Quantization;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 2004. Proceedings. (ICASSP '04). IEEE International Conference on
Print_ISBN :
0-7803-8484-9
DOI :
10.1109/ICASSP.2004.1326791
