本文提出了一种新的图像压缩编码方案。
分形几何方法是一种新的图像压缩编码方法。
Fractal geometry method is a new method of image compression coding.
图像压缩编码是图像处理中很重要的一方面。
图像压缩编码分为有损压缩编码和无损压缩编码。
Image compression coding includes loss compression coding and lossless compression coding.
本文介绍了图像压缩的原因及数字图像压缩编码。
The paper introduces the reason of image compression and digital image compression and coding.
DCT是一种被广泛应用于图像压缩编码中的正交变换。
DCT is an orthogonal transformation widely used in image compression applications.
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.
本论文的工作分为两大部分:数字语音压缩编码和活动图像压缩编码。
The paper falls into two main parts : digital speech compress coding and moving picture compress coding .
用于JPEG2000静止图像压缩编码FPGA实现的图像验证系统。
This paper presents an image processing system which is suitable for JPEG2000 FPGA implementation.
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.
最后以TMS320C 6201为核心给出了图像压缩编码算法的硬件实现方案。
Finally, TMS320C6201 being the kernel, an image compression coding algorithm is given to achieve the scheme for hardware realization.
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.
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.
图像部分加密方法只加密图像压缩编码的部分重要数据,是一种可行的实时加密方案。
This paper presents a partial encryption of gray images compressed by Set Partitioning in Hierarchical Trees (SPIHT).
JBIG2是即将实施的文档图像压缩编码标准,主要应用于传真、互联网和无线传输。
The JBIG2 standard supports lossless or lossy coding models for document. It is mainly used for the low end facsimile, Internet and wireless transmission.
有损压缩的关键步骤之一是量化,量化性能好坏对整个图像压缩编码系统有很重大的影响。
Quantization is one of the key step of Lossy compression, the performance of quantization has great influence on the image compression coding system.
结合图像压缩编码的具体应用,从硬件可实现性和计算量两个方面对比了提升框架变换和小波变换。
Combined with various applications in image coding and compression, lifting scheme transform is compared with wavelet transform in both hard realization and computation burden.
本文介绍了分形几何和分形图像压缩的一些基本概念,以及以分形为基础的几种图像压缩编码方法。
This paper introduces some basic concepts of fractal geometry and fractal image compression, and also introduces some kinds of image compression coding method based on fractal.
数字图像压缩编码的目的就是要以尽可能少的比特数来表征图像,同时又必须保持恢复图像的质量。
The purpose of digital image compress coding is to token the image within the limit of bit, and to maintain the quality of renew image.
因此将原始图像进行图像压缩编码是解决图像数据量大与有限存储容量和传输带宽矛盾的最合理方法。
So image compression coding of the original image is the most reasonable method that solves large amount of image data with limited storage capacity and transmission bandwidth contradictions.
提出了一种基于形态膨胀运算的对子带间重要系数位置信息进行联合编码的新型小波图像压缩编码算法。
A new wavelet image compression algorithm was proposed based on morphological dilation and the positional information of the important coefficient couplet belt.
本文是在对小波变换后系数分布特点的研究之上,提出了一种新的基于小波变换的分形图像压缩编码算法。
These thesis put forward a new method of fractal image encodings of compression based on wavelets under the research of distribution of coefficients after wavelets translation.
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.
分析了基于部分迭代函数系统(PIFS)的传统分形图像压缩编码中8 种对称旋转变换对编码性能的影响;
The effects of 8 isometry transforms used in PIFS based fractal image coding on performance are discussed.
本文结合热成像技术原理对红外热图像的特征进行了分析,并在此基础上去探索红外图像压缩编码的理论算法。
The thermal imaging theory and the characteristics of infrared image are analyzed in this dissertation. Based on it, a number of theoretic algorithms of infrared image compression coding are explored.
图像压缩编码的目的就是要以尽量少的比特数表征图像,同时保持复原图像的质量,使它符合特定应用场合的要求。
The purpose of image compression coding is to represent images with few bits, maintain the quality of recovering images according to the requirements of certain application situations.
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.
本文提出一种统计训练固定矩阵自适应KLT指纹图像压缩编码方法,并在TMS320C 25信号处理器上实时实现。
This paper presents a statistically learning fixed matrix adaptive KLT figure print image compression coding method. It is implemented using TMS320C25 as well.
本文提出一种统计训练固定矩阵自适应KLT指纹图像压缩编码方法,并在TMS320C 25信号处理器上实时实现。
This paper presents a statistically learning fixed matrix adaptive KLT figure print image compression coding method. It is implemented using TMS320C25 as well.
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