Title :
Adaptive runlength coding
Author :
Tu, Chengjie ; Liang, Jie ; Tran, Trac D.
Author_Institution :
Dept. of Electr. & Comput. Eng., Johns Hopkins Univ., Baltimore, MD, USA
fDate :
3/1/2003 12:00:00 AM
Abstract :
Runlength coding is the standard coding technique for block transform-based image/video compression. A block of quantized transform coefficients is first represented as a sequence of RUN/LEVEL pairs that are then entropy coded-RUN being the number of consecutive zeros and LEVEL being the value of the following nonzero coefficient. We point out the inefficiency of conventional runlength coding and introduce a novel adaptive runlength (ARL) coding scheme that encodes RUN and LEVEL separately using adaptive binary arithmetic coding and simple context modeling. We aim to maximize compression efficiency by adaptively exploiting the characteristics of block transform coefficients and the dependency between RUN and LEVEL. Coding results show that with the same level of complexity, the proposed ARL coding algorithm outperforms the conventional runlength coding scheme by a large margin in the rate-distortion sense.
Keywords :
adaptive codes; arithmetic codes; binary codes; discrete cosine transforms; entropy codes; image coding; image sequences; quantisation (signal); rate distortion theory; runlength codes; transform coding; DCT; adaptive binary arithmetic coding; adaptive runlength coding; block transform coefficients; block transform-based image/video compression; compression efficiency; context modeling; discrete cosine transform; entropy coded-sequence; nonzero coefficient; quantized transform coefficients; rate-distortion theory; run/level pairs sequence; Arithmetic; Bit rate; Context modeling; Discrete cosine transforms; Entropy coding; Huffman coding; Image coding; Signal processing algorithms; Transform coding; Video coding;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2002.807873
