Journal of Signal and Information Processing

Volume 3, Issue 1 (February 2012)

ISSN Print: 2159-4465   ISSN Online: 2159-4481

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A Multiresolution Channel Decomposition for H.264/AVC Unequal Error Protection

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DOI: 10.4236/jsip.2012.31001    4,854 Downloads   7,497 Views  Citations

ABSTRACT

The most commonly used transmission channel in nowadays provides the same level of protection for all the information symbols. As the level of protection should be adequate to the importance of the information set, it is justified to use UEP channels in order to protect information of variable importance. Multiresolution channel decomposition has emerged as a strong concept and when combined with H.264/AVC layered multiresolution source it leads to outstanding results especially for mobile TV applications. Our approach is a double multiresolution scheme with embedded constellation modulations on its baseband channels followed by OFDM time/frequency multiresolution passband modulation. The aim is to protect The NAL units carrying the most valuable information by the coarse constellations into coarse sub-channels, and the NAL units that contain residual data by fined constellations and transposed into the fined OFDM sub-channels. In the multiresolution protection coding, our approach is a multiresolution decomposition of the core convolutional constituent of the PCCC where the NAL units carrying the most valuable information are coded by the rugged coefficient of the multiresolution code and the NAL units that contains residual data are coded by refined less secure coding coefficients.

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R. Abbadi and J. Abbadi, "A Multiresolution Channel Decomposition for H.264/AVC Unequal Error Protection," Journal of Signal and Information Processing, Vol. 3 No. 1, 2012, pp. 1-15. doi: 10.4236/jsip.2012.31001.

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