要解决这一问题,就必须应用视频压缩编码技术。
To solve this problem, we must apply video encoding techniques.
压缩编码技术对图像处理中大量数据的存储和传输至关重要。
Image compression techniques are very important for the storage and transmission of the huge data in the modern image processing.
数字图像的压缩编码技术已经成为过去十几年来的重要研究课题。
Technologies for digital image compression have been the subject of much study over the past decade.
高清晰度电视(HDTV)信号传输的基础是高效信源压缩编码技术的实用化。
The practice of high - efficiency source compression coding is the basis of the transmission of HDTV signal.
有效的视频压缩编码技术对视频处理中大量数据的存储和传输来说是至关重要的。
Efficient video compression techniques are very important to the save and transmission of the increasing data in video processes.
由于未经处理的图像信息量非常大,大力研究和开发图像压缩编码技术就非常重要。
Because of the massive content of information of unprocessed image, it is extremely important to try our best to research and develop the technology for image coding.
高清晰度数字电视(HDTV)技术是当前最先进的图象压缩编码技术和数字通信技术的结合。
HDTV (High Definition Television) technology integrates the most advanced image compressed encoding technology and the digital communication technology.
利用静态图像的压缩编码技术,将彩色数字水印编码为一系列二值id数字,以实现水印的嵌入。
By still image compression coding technique, the color digital watermark is encoded into a series of binary ID Numbers for watermarking.
在传统的压缩编码技术中,采样均遵循奈奎斯特定律,该定律规定采样速率要高于原信号频率的两倍。
The Nyquist law is applied to all the conventional compression coding algorithms, which prescribes that the sampling rate must be at least as twice as the signal frequency.
视频通信中压缩编码技术对数据失真非常敏感,视频数据的任何失真,对视频质量都将产生重要的影响。
Compression Coding technology in the video communication is very sensitive to data distortion. Any distorted video datum will have an important influence on the quality of the videos.
运用多媒体计算机高效压缩编码技术,在普通一路电话线上快速发送与接收图像、文字与声音信息,性能稳定可靠。
This paper proposes high - efficient compassing code technique using multimedia computer which can send out and receive imagines, characters and audio message. Its property is stable and reliable.
运动图像压缩编码技术是多媒体技术的重要组成部分,高效快速的算法研究一直是国际学术界和工业界关注的热点问题。
Motive image coding is an important part of multimedia techniques. Study on fast and high efficient algorithms has always been a hot question in international industry and academia.
针对三维网格大数据量与三维图形引擎处理能力及网络带宽限制之间的矛盾,三维网格压缩编码技术提供了一系列解决方法。
To solve the conflict between the huge data of the 3d mesh and the power of the graphics engines and the limit of the network bandwidth, 3d mesh compression technique provides a series of approaches.
尤其是视频数据,这种要求更高。因此,研究和开发新型高质量、高效率的面向网络应用的视频压缩编码技术成为目前研究的热点。
So, it has been the hotspot of the present researches to research and develop the new video compression technology with higher quality and efficiency.
本文首先分析了网络多媒体应用中常用的流媒体技术,视频压缩编码技术。从当今流行的视频应用系统中指出视频应用的关键性问题。
This thesis analyzes stream media technology and video compression coding technology, then points out the key problems in networked multimedia application from many popular video transmission systems.
本文采用软件工程技术的方法详细介绍了图像压缩编码软件的开发及其测试实现过程。
This article used the method of software engineering technology to introduce the image compression code software development and the test.
运动估计是视频压缩编码中的关键技术。
Motion estimation is a key technique in video compress and coding.
运动估计是视频压缩编码中的关键技术。
数据压缩编码与解压解码技术是目前广泛应用的数字通信系统中的关键技术之一。
Data compressed encoding and uncompressed decoding is one of the key technologies applied widely in digital communication system at present.
为了达到令人满意的视觉和传输效果,对图像数据进行有效的压缩编码,是需要解决的关键技术之一。
In order to obtain satisfying vision and transmission effect, effective image data compress coding, is the key technology to solve.
分形图像压缩编码是当今图像编码领域研究的热点之一,是一种具有独特优势且极有发展前途的数据压缩技术。
Fractal image coding is one of researching focuses in image coding field at present. It is a kind of data compression technique with special advantages and a good developing future.
图像压缩编码长期以来利用离散余弦变换(DCT)作为变换编码的主要技术。
The DCT was used as the main method of image transform coding for a long time.
在移动通信系统中采用变速率语音压缩编码,可以最大限度地发挥系统的效能,而变速率语音编码的核心技术就是自适应技术。
The mobile communication system can furthest fulfill its function if variable rate speech coding is adopted, and the very core of this coding is the adaptive technology.
该文指出图像数据分类对矢量量化技术进行图像压缩编码的重要性。
This paper presents the importance of source classification to image data compression with vector quantization technique. Also, an image data classifying method is given.
视频压缩编码是多媒体应用的关键技术。
Video coding is the key technology of the multimedia application.
视频压缩编码是多媒体领域的关键技术,也是当今技术领域研究的热点。
Video coding is a key technique in the multimedia area, and also a popular study direction in temporary technique field.
作为现代通信、介质存储、数据发行、多媒体计算机等技术的关键环节,图像压缩编码始终是信息处理技术研究中最为活跃的领域之一。
As the key technique of modern communication, media storage, data publish and multimedia computer, image compression is one of the most active areas in information processing.
接着着重讨论了远程监控中的关键的部分视频通信技术,其中包括视频压缩编码、数据传输策略以及IP组播技术。
It focus on the key part of the remote monitoring including video communication technologies, video coding, IP Multicast technology strategy and data transmission.
为了提高压缩率,视频编码技术中一般会采用有损和无损压缩编码相结合的方式。
In order to improve compression ratio, the combination of lossy and lossless coding method is used in video coding systems.
为了提高压缩率,视频编码技术中一般会采用有损和无损压缩编码相结合的方式。
In order to improve compression ratio, the combination of lossy and lossless coding method is used in video coding systems.
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