Adaptive intra block update for robust transmission of H.263

An adaptive block based intra refresh algorithm for increasing error robustness in an interframe coding system is described. The goal of this algorithm is to allow the intra update rates for different image regions to vary according to various channel conditions and image characteristics. The update...

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Published in:IEEE transactions on circuits and systems for video technology 2000-02, Vol.10 (1), p.30-35
Main Authors: Liao, J.Y., Villasenor, J.
Format: Article
Language:English
Subjects:
Algorithms
Applied sciences
Blocking
Channels
Coders
Coding
Coding, codes
Decoding
Discrete cosine transforms
Encoders
Error correction
Error correction codes
Exact sciences and technology
Feedback
Image processing
Information, signal and communications theory
Narrowband
Permissible error
Resilience
Robustness
Signal and communications theory
Signal processing
Studies
Telecommunications and information theory
Video coding
Working environment noise
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cited_by cdi_FETCH-LOGICAL-c396t-700cb5a145f2b2416d770cd09c0bf89b92392f5d663ec93eaa7cb44e593a184b3
cites cdi_FETCH-LOGICAL-c396t-700cb5a145f2b2416d770cd09c0bf89b92392f5d663ec93eaa7cb44e593a184b3
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container_title IEEE transactions on circuits and systems for video technology
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creator Liao, J.Y.
Villasenor, J.
description An adaptive block based intra refresh algorithm for increasing error robustness in an interframe coding system is described. The goal of this algorithm is to allow the intra update rates for different image regions to vary according to various channel conditions and image characteristics. The update scheme is based on an "error-sensitivity metric," accumulated at the encoder, representing the vulnerability of each coded block to channel errors. As each new frame is encoded, the accumulated metric for each block is examined, and those blocks deemed to have an unacceptably high metric are sent using intra coding as opposed to inter coding. This approach requires no feedback channel and is fully compatible with H.263. It involves a negligible increase in encoder complexity and no change in the decoder complexity. Simulations performed using an H.263 bitstream corrupted by channel errors demonstrate a significant improvement in terms of error recovery time over nonadaptive intra update strategies.
doi_str_mv 10.1109/76.825855
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source IEEE Electronic Library (IEL) Journals
subjects Algorithms
Applied sciences
Blocking
Channels
Coders
Coding
Coding, codes
Decoding
Discrete cosine transforms
Encoders
Error correction
Error correction codes
Exact sciences and technology
Feedback
Image processing
Information, signal and communications theory
Narrowband
Permissible error
Resilience
Robustness
Signal and communications theory
Signal processing
Studies
Telecommunications and information theory
Video coding
Working environment noise
title Adaptive intra block update for robust transmission of H.263
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