In this paper, a fractal image compression method based on region partition is devised.
本文设计了一种基于区域划分的分形图象压缩方法。
Reducing fractal block coding time is one of the main problems of fractal image compression.
缩短分形块编码时间是进行分形图象压缩的关键问题之一。
Quadtree partitions are often used in fractal image compression to achieve variable bit rates.
为了得到可变的位率,在分形图像压缩中经常采用四叉树分割方法。
In addition, a small fixed dictionary that is applied to speeding up fractal image compression coding is built.
此外,还建立一个小型固定字典,用以加速分形图像的压缩编码。
The principle of fractal image compression is that local self-similarity form a Local Iterated Function System.
图像分形压缩的原理是利用图像中的局部自相似性来构造局部迭代函数系统。
Experimental results also show the superiority of its application in match seeking of fractal image compression.
实验结果也证明了这种算法在分形图像压缩匹配搜索算法中应用的优越性。
The first chapter introduces the significance of fractal image compression research and the valuation standard of image quality.
首先在第一章中介绍了分形图象压缩研究的意义和数字图象质量的评价标准。
However, the long coding time of this method becomes the main problem for the fractal image compression to be efficient and utilizable.
分形图像编码速度慢的最主要原因是搜索最佳匹配的定义域块耗时太多。
Nowadays, fractal image compression has received much appreciation because of its characteristic of fast decoding and resolution-independent.
目前,分形图像编码以其解码快速及分辨率无关等特性正逐步显现出它的优越性。
Fractal image compression is of outstanding advantages of high compression ratio and high image qualities, but its encoding process is time-consuming.
分形图象编码法具有高压缩比、高图象品质等显著优点,但其编码时间太长。
Fractal image compression has received much attention for its desirable properties like resolution independence, fast decoding and high compression ratio.
基于分形的图像编码方法具有高压缩比、分辨率无关性、快速解码等优越性质。
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.
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。
It is much attention of the fractal image compression method because of its high compression rate and the simple mean of decompression . But the effect of the compression is not good.
分形图像压缩方法由于其压缩比高、解压方法简单等原因越来越收到重视,但是它的压缩质量不是很令人满意。
In order to improve the ratio of binary image compression, using top-dowm method of coding, bring forward a fractal image compression method based on isosceles right triangle, and simulated.
为了提高二值图像的压缩比,采用自顶向下的编码方法,提出一种基于等腰直角三角形的分形图像压缩算法,并进行仿真实验。
The nowadays fractal image compression schemes suffers from long encoding time, because of considerable comparisons with domain blocks for each range block to find its best-match domain blocks.
目前分形图像压缩的最主要问题是其编码时间太长,这主要是因为在分形编码时,对每一个待编码值域块都需要比较数量巨大的定义域块才能找到它的最优匹配块。
A method of the fractal image compression based on region partition is designed, which is used to merge the neighboring sub-regional pairs according to the principle of the least collage errors.
设计了一种基于区域划分的分形图像压缩方法,这种方法根据拼贴误差最小原则合并相邻子区域对,将图像划分为一些具有局部自相似性的不规则形状区域。
Fractal geometry method is a new method of image compression coding.
分形几何方法是一种新的图像压缩编码方法。
This paper first introduces the common image compression technology-Huffman coding and fractal coding, and then proposes some improvements.
本文通过介绍常见的图像压缩技术——哈夫曼编码和分形编码,提出了一些改进的方法。
The paper analyses the weakness of traditional speed-up techniques for image fractal compression firstly, and proposes a novel idea by using entropy to improve image fractal compress performance.
本文首先分析图像分形压缩技术中传统加速方法的性能缺陷,随后提出使用图像块的熵值来改进分形压缩性能的思想。
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。
The experimental results show that the fixed compression dictionary can realize fractal image coding quickly and has some fractal image merit decoding.
实验结果表明,固定压缩字典能快速地实现分形图像的编码,并具有部分分形图像的解码优点。
This paper discusses the fractal geometry method of image compression. And it provides an assumption to form "Intelligent Image Compression System".
本文讨论了图像压缩的分形几何方法,并提出了形成“智能型图像压缩系统”的设想。
Fractal coding has been proved useful for image compression, and it is also proved effective for content-based image retrieval.
分形编码在图像压缩方面取得了很好的效果,同时也能够用于基于内容的图像检索。
In this paper, fractal image coding and fractal interpolation for image compression are studied at first.
本文首先研究了分形图象压缩编码和分形插值图象压缩方法。
Fractal is widely used in many fields such as the image data compression, simulation of natural scenery, the growing of fractal geometry and the research of chaos motility system.
分形几何学在图像数据压缩、模拟自然景物,艺术图案设计、分形生长及混沌动力系统的研究等方面有着广泛的应用。
This paper presents an existent and constructive proof of image fractal compression mappings and application in fractal image coding.
给出了图象分形压缩映射存在性的一个构造性证明,并应用在图象编码中。
It USES wavelet and fractal to compress image and compare its compression result. Then sum-up what is fit for wavelet and fractal compression.
本课题就是针对上述问题,通过小波变换和分形这两种方法来进行图像压缩,对比起压缩效果,总结出分别适合于小波和分形压缩的图像。
It USES wavelet and fractal to compress image and compare its compression result. Then sum-up what is fit for wavelet and fractal compression.
本课题就是针对上述问题,通过小波变换和分形这两种方法来进行图像压缩,对比起压缩效果,总结出分别适合于小波和分形压缩的图像。
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