Title :
Optimal buffered compression and coding mode selection for MPEG-4 shape coding
Author :
Lee, Jae-Beom ; Cho, Jin-Soo ; Eleftheriadis, Alexandros
Author_Institution :
Solid Streaming Inc., New York, NY, USA
fDate :
5/1/2001 12:00:00 AM
Abstract :
We propose an optimal buffered compression algorithm for shape coding as defined in the forthcoming MPEG-4 international standard. The MPEG-4 shape coding scheme consists of two steps: first, distortion is introduced by down and up scaling; then, context-based arithmetic encoding is applied. Since arithmetic coding is “lossless,” the down up scaling step is considered as a virtual quantizer. We first formulate the buffer-constrained adaptive quantization problem for shape coding, and then propose an algorithm for the optimal solution under buffer constraints. Previously, the fact that a conversion ratio (CR) of 1/4 makes a coded image irritating to human observers for QCIF size was reported for MPEG-4 shape coding. Therefore, careful consideration for small size images such as QCIF should be given to prevent coded images from being unacceptable. To this end, a low bit rate tuned algorithm is proposed in this paper as well. Experimental results are given using an MPEG-4 shape codec
Keywords :
adaptive codes; arithmetic codes; buffer storage; code standards; data compression; video coding; MPEG-4 international standard; MPEG-4 shape codec; MPEG-4 shape coding; QCIF; buffer-constrained adaptive quantization problem; coded image; coding mode selection; context-based arithmetic encoding; conversion ratio; distortion; down scaling; low bit rate tuned algorithm; optimal buffered compression; small size images; up scaling; virtual quantizer; Arithmetic; Chromium; Compression algorithms; Encoding; Humans; Image coding; Image converters; MPEG 4 Standard; Quantization; Shape;
Journal_Title :
Image Processing, IEEE Transactions on
