搜索资源列表
Wavelettransforminthreedimensionalimagerestoration
- 小波变换在三维EM图像复原中的应用 毕业论文很有用-Wavelet transform in three-dimensional image restoration in the application of EM is useful Thesis
IMGReg
- VC数字图像处理典型算法及实现,完整的源码,主要的图象复原算法:运动模糊,运动模糊复原,逆滤波退化,逆滤波复原,加噪退化,维纳滤波复原-VC typical digital image processing algorithm and the realization of the complete source code, the main image recovery algorithm: motion blur, motion blur restoration, inverse fil
wavelets
- 基于小波变换的图像压缩代码,包括压缩比、运行时间和计算复原图像的峰值信噪比-Image compression based on wavelet transform code, including compression ratio, operation time and recovery images of the peak signal to noise ratio calculation
ImageWienerFilter
- 维纳滤波程序,图像复原中的维纳滤波复原程序,很有用的 -ImageWienerFilter
imageprocessing
- 用偏微分方程实现图像复原。以C++为运行环境。-Image processing, image compression. Gray-scale computing. Image difference operation.
Image-Processing
- vc++数字图像编程基础,包括点运算、几何变换(平移、旋转、缩放、镜像)、正交变换(沃尔什、傅里叶、离散余弦)、图像增强(图像平滑、中值滤波、梯度锐化、拉普拉斯锐化)、形态学变换(腐蚀、膨胀、开、关)、边缘与轮廓(robert、sobel、frewit、kirsch、gauss-laplace边缘检测算子,hough变换,轮廓提取,轮廓跟踪)、图像分析(阈值分割、投影检测、差影检测、模板匹配)、图像复原(卷积模糊、逆滤波复原、维纳滤波复原,随机、椒盐噪声)、图像编码(赫夫曼编码、香农费诺编码、行
Orthogonal-Matching
- 典型的图像复原是根据图像退化的先验知识建立一个退化模型,以此模型为基础,采用各种逆退化处理方法进行恢复,使图像质量得到改善。-The typical image restoration is a degradation model, this model based on a priori knowledge of image degradation, degradation of a variety of inverse approach to recover, so that the ima
Wavelets
- 图像的小波变换,图像滤波和图像的复原,融合等算法VC-Image wavelet transform, image filtering and image recovery, integration algorithm VC
The_digital_image_processing
- 数字图像处理算法的实现 包括:Hough变换,边缘检测,差影法,轮廓提取与跟踪投影法,图像复原,阈值分割,种子填充-Digital image processing algorithm, including: Hough transform, edge detection, and poor shadow law, contour extraction and tracking projection, image recovery, threshold segmentation, seed
ImageProcessing
- 包含了图像处理的各种算法,图像增强,图像配准,图像识别,运动检测,图像编码,图像复原等各种算法-Contains a variety of image processing algorithms, image enhancement, image registration, image recognition, motion detection, image coding, image restoration algorithm, etc.
6
- 此代码包含了图像获取,图像增强,图像复原,正交变换,压缩编码,图像配准,运动检测,特征提取,图像分割及识别的功能-This code includes the image acquisition, image enhancement, image restoration, orthogonal transform, compression, image registration, motion detection, feature extraction, image segmentation a
VisualC++ImageProcessing
- 图像处理的基本方法源代码,包括图像读写、图像复原等-The basic method of image processing source code, including reading and writing images, image restoration, etc.
IMGRestore
- visual c++数字图像处理典型算法及实现>一书中的第11章图像复原等,一本很好的书和算法源代码-visual c++ digital image processing algorithm and realize typical> One book, Chapter 11, such as image restoration, a very good book and the algorithm source code
Image-deconvolution-prior
- 本源码是利用Sparse Prior复原图像的方法,其中包括频域和空域的复原比较,源码中有相应的文章Deconvolution using natural image priors-Deconvolution using natural image priors
ImageProcessing
- 程序主要实现了图像增强、图像复原、图像变换、图像编码、图像配准、图像识别、运动检测、特征提取等功能,涵盖了数字图像处理的主要方法和算法。-Procedures for implementation of the main image enhancement, image restoration, image transform, image coding, image registration, image recognition, motion detection, feature extra
Programming
- 实现图像处理的基本功能,实现图像点运算,几何变换,图像复原和压缩技术-Realize the basic functions of image processing to achieve image point computation, geometric transform, image restoration and image compression technology
imagerestoration
- 图像恢复 1.编程读出给定的多幅bmp文件的图像矩阵数据 2.编程利用噪声对图像矩阵进行数据劣化 3.编程利用图像恢复算法进行复原,并观察复原效果 4.调整噪声的种类和强度进行重复实验 -1. Programmed to read out a given number of bmp image matrix data file 2. Programming to use noise to the image data matrix degradation 3. Program
IMGRestore
- 图像复原 图像退化 运动模糊复原 非约束复原 约束复原-Image Restoration of degraded motion-blurred image to recover non-binding constraint recovery recovery
Image_processing
- 图像处理源码,包括:点运算,几何变换,正交变换,图像增强,形态学变换,边缘与轮廓,图像分析,图像复原,图像编码等等...包含各种算法-Image processing source code, including: point operations, geometric transformations, orthogonal transform, image enhancement, morphological transformation, edge and contour, image an
Wienerfilt
- 给大家的基于维纳滤波图像复原的改进算法研究-To the Wiener filter based on all the improvements in image restoration algorithm