Add to ORKGIn this paper we introduce a new Inter Macroblock type within the H.264 (or MPEG-4 AVC) video coding standard that can further improve coding efficiency by exploiting the temporal correlation of motion within a sequence. This leads to a reduction in the bits required for encoding motion information, while retaining or even improving quality under a Rate Distortion Optimization Framework. An extension of this concept within the skip macroblock type of the same standard is also presented. Simulation results show that the proposed semantic changes can lead to up to 7.6 % average bitrate reduction or equivalently 0.39dB quality improvement over the current H.264 standard
The recent H.264/MPEG4-AVC video coding standard has achieved a significant bitrate reduction compar...
Abstract—Based on our previous efforts, we introduce in this letter a high-efficient MPEG-2 to H.264...
AbstractWhen video noise increases, the coding efficiency of the H.264/AVC considerably decreases. T...
The consideration of better motion compensation techniques for inter-frame prediction is one of the ...
We present a family of new macroblock partitions for H.264/AVC inter prediction. These modes allow a...
Abstract: Pattern-based video coding representing moving regions in macroblock has very good potenti...
Part 10 of MPEG-4 describes the Advanced Video Coding (AVC) method widely known as H.264. H.264 is t...
The H.264/AVC standard offers a wide range of coding tools to achieve a high level of compression ef...
Abstract—The H.264/MPEG4-AVC video coding standard has achieved a higher coding efficiency compared ...
In this paper we present a bit allocation approach based on motion vector analysis for improved Rate...
Abstract The performance improvement in H.264/MPEG-4 AVC is provided at the expense of higher comput...
This paper proposes an alternative use of the passive error concealment algorithm present as part of...
H.264/AVC is the newest block based video coding standard from MPEG and VCEG. It not only provides s...
The latest emerging video compression standard, H.264/AVC, achieves better compression performance t...
During the past two decades, there have been many developments in multimedia representation and comm...
The recent H.264/MPEG4-AVC video coding standard has achieved a significant bitrate reduction compar...
Abstract—Based on our previous efforts, we introduce in this letter a high-efficient MPEG-2 to H.264...
AbstractWhen video noise increases, the coding efficiency of the H.264/AVC considerably decreases. T...
The consideration of better motion compensation techniques for inter-frame prediction is one of the ...
We present a family of new macroblock partitions for H.264/AVC inter prediction. These modes allow a...
Abstract: Pattern-based video coding representing moving regions in macroblock has very good potenti...
Part 10 of MPEG-4 describes the Advanced Video Coding (AVC) method widely known as H.264. H.264 is t...
The H.264/AVC standard offers a wide range of coding tools to achieve a high level of compression ef...
Abstract—The H.264/MPEG4-AVC video coding standard has achieved a higher coding efficiency compared ...
In this paper we present a bit allocation approach based on motion vector analysis for improved Rate...
Abstract The performance improvement in H.264/MPEG-4 AVC is provided at the expense of higher comput...
This paper proposes an alternative use of the passive error concealment algorithm present as part of...
H.264/AVC is the newest block based video coding standard from MPEG and VCEG. It not only provides s...
The latest emerging video compression standard, H.264/AVC, achieves better compression performance t...
During the past two decades, there have been many developments in multimedia representation and comm...
The recent H.264/MPEG4-AVC video coding standard has achieved a significant bitrate reduction compar...
Abstract—Based on our previous efforts, we introduce in this letter a high-efficient MPEG-2 to H.264...
AbstractWhen video noise increases, the coding efficiency of the H.264/AVC considerably decreases. T...