本文在速率失真函数的基础上,提出了适合精细可分级编码视频流的最优的速率分配方法。
An optimal rate allocation method for fine granularity scalable video streaming based on rate-distortion function was presented.
本论文主要研究了可分级编码,特别是面向网络的精细可扩展编码,以其在网络上的相关传输问题。
And this paper mainly researches on scalable coding, especially Fine Granular Scalability (FGS) coding, and the problems of its transmission.
为此提出了一种基于对象的精细可伸缩性编码方法,该方法将对象编码与位平面编码相结合。
This paper presents a new Fine Granular Scalable coding based on the image object, which incorporate the image object coding with the Bit plane coding.
对几种特殊的输入函数进行了编码仿真实验,结果说明了视皮层复杂细胞时空整合编码序列的精细时间结构能够进行视觉输入的神经表象。
The simulated results for three special input functions show the finer structure of spatiotemporal integration coding series of complex cells in visual cortex could represent visual inputs.
本文研究了MPEG-4标准中的精细粒度伸缩编码技术。
This paper studied the Fine Granularity Scalability Technology in MPEG - 4 standard.
提出了一种新颖的空间可伸缩视频编码方案-精细粒度空间可伸缩编码。
In this paper, we present a novel structure for spatially scalable video coding, that is, fine-granularity spatially scalable coding.
提出了一个基于MPEG 4精细可分级编码技术的视频流式传输系统。
A video streaming system based on MPEG4 fine granularity scalability (FGS) is presented.
在MPEG-4标准的视频流化框架中,精细的可伸缩性视频编码FGS是关键的编码技术。
The fine granularity scalability(FGS) video coding is an important technique in the MPEG-4 streaming profile.
编码或提取信息所需的精细加工愈多,年龄差异就愈大。
The more elaborate information that the encoding or distilling may be required, the more age related differences in memory performance will be shown.
实验二通过设置不同的启动刺激呈现时间,探究了记忆编码的加工深度与精细化水平对记忆提取抑制机制的影响。
By varying the duration of prime material's presentation, Experiment 2 explored the influences of the encoding duration to the inhibitory mechanism in memory retrieval.
首先,详细介绍了它支持的时域、空域、SNR粗粒度可分级(CGS)和SNR精细粒度可分级(FGS)编码的原理和实现;最后,对视频可分级编码技术的应用前景进行了总结。
Firstly, the principle and implementation of temporal Scalability, spatial Scalability, SNR Coarse-grain Scalability (CGS) and SNR Fine-grain Scalability (FGS) Video Coding are introduced in detail.
首先,详细介绍了它支持的时域、空域、SNR粗粒度可分级(CGS)和SNR精细粒度可分级(FGS)编码的原理和实现;最后,对视频可分级编码技术的应用前景进行了总结。
Firstly, the principle and implementation of temporal Scalability, spatial Scalability, SNR Coarse-grain Scalability (CGS) and SNR Fine-grain Scalability (FGS) Video Coding are introduced in detail.
应用推荐