Jiangtao Wen - Academia.edu (original) (raw)
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Papers by Jiangtao Wen
icip, 1997
Avideo signal is encoded in a progressive video coder so as to generate a progressive coded video... more Avideo signal is encoded in a progressive video coder so as to generate a progressive coded video bit stream for trans mission over a heterogeneous netWork. The progressive coded video bit stream is con?gured so as to be decodable at any one of a series of increasing bit rates up to a maximum * * * * *
… , 1997. Conference Record of the Thirty …, 1997
The International Telecommunications Union (ITU) recently adopted reversible variable length code... more The International Telecommunications Union (ITU) recently adopted reversible variable length codes (RVLCs) for use in the emerging H.263+ video compression standard. As the name suggests, these codes can be decoded in two directions and can therefore be used by a decoder to enhance robustness in the presence of transmission bit errors. In addition, these RVLCs involve essentially no eficiency loss relative to the corresponding non-reversible variable length codes. We present here the ideas behind two general classes of RVLCs that include the new H.263+ codes as a special case, andpresent results on the probability of error detection when these codes are used.
icip, 1997
Avideo signal is encoded in a progressive video coder so as to generate a progressive coded video... more Avideo signal is encoded in a progressive video coder so as to generate a progressive coded video bit stream for trans mission over a heterogeneous netWork. The progressive coded video bit stream is con?gured so as to be decodable at any one of a series of increasing bit rates up to a maximum * * * * *
… , 1997. Conference Record of the Thirty …, 1997
The International Telecommunications Union (ITU) recently adopted reversible variable length code... more The International Telecommunications Union (ITU) recently adopted reversible variable length codes (RVLCs) for use in the emerging H.263+ video compression standard. As the name suggests, these codes can be decoded in two directions and can therefore be used by a decoder to enhance robustness in the presence of transmission bit errors. In addition, these RVLCs involve essentially no eficiency loss relative to the corresponding non-reversible variable length codes. We present here the ideas behind two general classes of RVLCs that include the new H.263+ codes as a special case, andpresent results on the probability of error detection when these codes are used.