Add to ORKGThe extension of H.264/AVC hybrid video coding towards motion-compensated temporal filtering (MCTF) and scalability is presented. Utilizing the lifting approach to implement MCTF, the motion compensation features of H.264/AVC can be re-used for the MCTF prediction step and extended in a straightforward way for the MCTF update step. The MCTF extension of H.264/AVC is also incorporated into a video codec that provides SNR, spatial, and (similar to hybrid video coding) temporal scalability. The paper provides a description of these techniques and presents experimental results that validate their efficiency
Video contents needs to be compressed in order to reduce the resources required for storage and netw...
This tutorial will present and discuss the main recent advances in standardized video coding technol...
In this paper, we explore the complexity-performance trade-offs for camera surveillance applications...
The extension of H.264/AVC hybrid video coding towards scalable video coding (SVC) using motion-comp...
The state-of-the-art H.264/AVC video coding standard achieves significant improvements in coding eff...
We present an SNR-scalable extension of the H.264/AVC video coding standard. To achieve an efficient...
We propose a scalable extension of the H.264/AVC video coding standard. To achieve an efficient scal...
Motion Compensated Temporal Filtering (MCTF) has proved to be an efficient coding tool in the design...
The paper proposes a novel algorithm to enhance the quality of H.264/AVC compressed video sequences ...
Scalable video coding (SVC) is an emerging standard built on the success of advanced video coding st...
Abstract:- This paper presents a novel H.264-based video coding scheme for a scalable delivery syste...
Abstract—Since motion-compensated temporal filtering (MCTF) becomes an important temporal prediction...
Scalability at a bit-stream level is a desirable feature for many applications. The need for scalabi...
Video contents needs to be compressed in order to reduce the resources required for storage and netw...
Scalable Video Coding provides temporal, spatial and quality scalability using layers within the enc...
Video contents needs to be compressed in order to reduce the resources required for storage and netw...
This tutorial will present and discuss the main recent advances in standardized video coding technol...
In this paper, we explore the complexity-performance trade-offs for camera surveillance applications...
The extension of H.264/AVC hybrid video coding towards scalable video coding (SVC) using motion-comp...
The state-of-the-art H.264/AVC video coding standard achieves significant improvements in coding eff...
We present an SNR-scalable extension of the H.264/AVC video coding standard. To achieve an efficient...
We propose a scalable extension of the H.264/AVC video coding standard. To achieve an efficient scal...
Motion Compensated Temporal Filtering (MCTF) has proved to be an efficient coding tool in the design...
The paper proposes a novel algorithm to enhance the quality of H.264/AVC compressed video sequences ...
Scalable video coding (SVC) is an emerging standard built on the success of advanced video coding st...
Abstract:- This paper presents a novel H.264-based video coding scheme for a scalable delivery syste...
Abstract—Since motion-compensated temporal filtering (MCTF) becomes an important temporal prediction...
Scalability at a bit-stream level is a desirable feature for many applications. The need for scalabi...
Video contents needs to be compressed in order to reduce the resources required for storage and netw...
Scalable Video Coding provides temporal, spatial and quality scalability using layers within the enc...
Video contents needs to be compressed in order to reduce the resources required for storage and netw...
This tutorial will present and discuss the main recent advances in standardized video coding technol...
In this paper, we explore the complexity-performance trade-offs for camera surveillance applications...