Abstract
This paper presents an efficient transform-domain architecture and corresponding mode decision algorithms for transcoding intra-coded video from MPEG-2 to H.264/AVC. Low complexity is achieved in several ways. First, our architecture employs direct conversion of the transform coefficients, which eliminates the need for the inverse discrete cosine transform (DCT) and forward H.264/AVC transform. Then, within this transform-domain architecture, we perform macroblock-based mode decisions based on H.264/AVC transform coefficients, which is possible using a novel method of calculating distortion in the transform domain. The proposed method for distortion calculation could be used to make rate-distortion optimized mode decisions with lower complexity. Compared to the pixel-domain architecture with rate-distortion optimized mode decision, simulation results show that there is a negligible loss in quality incurred by the direct conversion of transform coefficients and the proposed transform-domain mode decision algorithms, while complexity is significantly reduced. To further reduce the complexity, we also propose two fast mode decision algorithms. The first algorithm ranks modes based on a simple cost function in the transform domain, then computes the rate-distortion optimal mode from a reduced set of ranked modes. The second algorithm exploits temporal correlations in the mode decision between temporally adjacent frames. Simulation results show that these algorithms provide additional computational savings over the proposed transform-domain architecture while maintaining virtually the same coding efficiency.
Highlights
The latest video compression standard, known as H.264/AVC [1], is able to achieve significantly improved compression efficiency over prior standards such as MPEG-2
The above calculation has not taken into account that the reference inverse DCT (IDCT) needs floating point operations, which typically is more expensive than integer operations
We evaluate the performance of the proposed fast mode decision algorithms (Section 4) within the context of the transform-domain transcoder (TDT) architecture, namely the fast mode decision based on ranking (TDT-R) and the algorithm based on temporal correlation (TDT-C)
Summary
The latest video compression standard, known as H.264/AVC [1], is able to achieve significantly improved compression efficiency over prior standards such as MPEG-2. Multiformat standard decoder solutions, which have the capability to decode multiple video compression formats including MPEG2, H.264/AVC, and VC-1, are becoming available. To minimize the need to upgrade all of this equipment at once and ease the transition to the new H.264/AVC coding format, there is a strong need for efficient transcoding from MPEG-2 to H.264/AVC. This topic has received much attention from the research community in recent years [2,3,4]. We focus on a particular subset of this larger problem, which is the transcoding of intra-coded video
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