A new wavelet-based embedded image coding technique is proposed. For any desired L-infinity-distortion bound, the bit stream can be truncated at a corresponding bit rate, so that the target upper bound on the absolute values of the pixels of the reconstruction error image is guaranteed. The algorithm outperforms embedded L-2-oriented wavelet coders in terms of maximum absolute error.
Alecu, A, Munteanu, A, Schelkens, P, Cornelis, J & Dewitte, S 2002, 'Wavelet-based L-infinite scalable coding', IEE Electronics Letters, vol. 38, no. 22, pp. 1338-1340.
Alecu, A., Munteanu, A., Schelkens, P., Cornelis, J., & Dewitte, S. (2002). Wavelet-based L-infinite scalable coding. IEE Electronics Letters, 38(22), 1338-1340.
@article{d37f8d423d1d4010a22b23fd1cfd9f9b,
title = "Wavelet-based L-infinite scalable coding",
abstract = "A new wavelet-based embedded image coding technique is proposed. For any desired L-infinity-distortion bound, the bit stream can be truncated at a corresponding bit rate, so that the target upper bound on the absolute values of the pixels of the reconstruction error image is guaranteed. The algorithm outperforms embedded L-2-oriented wavelet coders in terms of maximum absolute error.",
keywords = "wavelet-based embedded image coding, L-infinity",
author = "Alin Alecu and Adrian Munteanu and Peter Schelkens and Jan Cornelis and Steven Dewitte",
note = "IEE Electronics Letters, Vol. 38, Nr. 22, pp. 1338 - 1340, , IEE.",
year = "2002",
month = oct,
language = "English",
volume = "38",
pages = "1338--1340",
journal = "IEE Electronics Letters",
number = "22",
}