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机构地区:[1]上海大学通信学院电子信息工程系,上海200072
出 处:《中国图象图形学报(A辑)》2004年第7期869-872,共4页Journal of Image and Graphics
基 金:上海市重点学科基金项目 (2 0 0 1 44 );上海市教委发展基金项目 (0 3AQ86)
摘 要:可分级编码是解决Internet流视频应用中网络带宽不断波动的一种有效方法 ,所以MPEG 4标准中采用了FGS(finegranularityscalability)编码方法来获得精细颗粒可分级能力 ,但其代价是编码效率的下降。为解决此问题 ,现提出在增强层中采用运动补偿的MC加FGS(motioncompensation加FGS)结构 ,用于去除FGS方案中增强层在时域上的冗余 ,以提高FGS方案编码效率的双环和单环两种方法。在比较了两种结构各自的优缺点后 ,选定了一种复杂度小、实现简单、效率高的单环结构 ,并提出了对单环结构的缺陷进行改善的方法。实验结果表明 ,该方法的编码性能优于MPEGTransmitting video streaming over Internet is a challenging problem because the bandwidth of network varies all the time. Scalable coding seems to be an effective solution to resolve the bandwidth varying on the streaming video application over Internet. Though traditional scalable video coding schemes get scalability, the scalability is coarse and need much more memory expense. To obtain fine granularity scalability, the MPEG-4 video coding standard adopts FGS coding scheme. It permits bitstreams after being coded be truncated and transmitted arbitrarily with the available bandwidth. However, the fine granularity scalability of the FGS is obtained at sacrifice of coding efficiency. The reason that causes the FGS coding scheme's coding efficiency is, there exists much temporal redundancy on the enhancememt layer. In this paper, two MC FGS structure based on using motion compensation on the enhancement layer are developed to get higher coding efficiency. Both of them exploit the temporal redundancy of the enhancement layer. After comparing both structures, one is recommended by this paper. The experimental results prove that the performance of scheme presented by this paper is better than that of MPEG-4 FGS.
关 键 词:流视频 精细颗粒可分级 编码效率 运动补偿 MPEG-4
分 类 号:TN919.81[电子电信—通信与信息系统]
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