我自己编写,直方图修正和彩色变换源代码。
I have written, histogram correction and color transform the source code.
主成分变换和彩色变换相结合,为多波段数据信息提取提供了一种新的方法。
The combined use of principal component transform and IHS color transform provides a powerful information extraction tool for multispectral data processing.
考虑SLM显微图像的特征和图像的彩色信息,在HSI彩色空间和向量空间的基础上,提出了两种基于小波变换的边缘检测算法。
Considering the characteristics of SLM microscopic images and color information of them, two wavelet transformation based methods in HSI color space and vector space for edge detection are proposed.
针对彩色空间变换的FPGA实现方法,在分析原理和一般的实现方法后,给出一种改进的、具有“时分复用”特点的逻辑结构。
The theory and implementation methods of color space conversion based on FPGA are studied, and an improved logic architecture with "time division multiple" is presented.
提出了一种用于数字彩色扩印系统的色空间变换和色域边界面确定方法。
New methods for color space conversion of digital color paper printer and its color gamut calculation are proposed.
采用了几种图像融合算法如对比度调制融合、伪彩色融合和小波变换融合法,实现了对红外和可见光图像的融合。
Several image fusion algorithms, such as contrast modulation fusion, false color fusion and wavelet transform fusion have been adopted to realize the fusion of visual and infrared images.
本文提出一种利用傅里叶变换全息图存储彩色胶片的方法。
A method for storage of color films using Fourier transform holograms isp resented.
提出了一种用于数字彩色扩印系统的色空间变换和色域边界面确定方法。
New methods for color space conversion of digital color paper printer and its color gamutcalculation were proposed.
在传统的分通道处理和基于HIS变换处理的基础上,引入数学形态学处理彩色遥感影像的薄云。
By introducing mathematical morphology procession of color remote sensing images to the traditional channel procession and the HIS transform, the aim of light cloud removal could be achieved.
彩色形态变换作为一种数学形态学方法在彩色空间的延拓,可有效地应用于图象处理、图象编码和目标形状特征提取等。
As an extension of mathematical morphology to color space, the proposed transformation can be efficiently used in color image processing, image encoding and shape features extraction of objects, etc.
第二阶段主要涉及改善图像质量的一些图像处理技术,包括基本的图像变换、频域增强、彩色处理和图像恢复技术等。
In the second phase, techniques to improve the image quality are analyzed, and they are image transformation, frequency enhancement, color image, image recovery, and so on.
为了真实地再现视频图像信息,RGB信号在送给彩色LED显示屏之前必须进行基色变换处理。
In order to reproduce the original video image objectively, the RGB signals must be processed with color switching method before sending to the LED display screen.
该技术可应用于全息图制作、彩色图像变换、光学图像加密、滤波器的制作、光学防伪等领域。
This system can be used in hologram producing, color image transform, optical image encryption, filter producing, optical anti-counterfeiting and other fields.
眼底图像的预处理系统包括:彩色图像的处理、图像的几何变换以及图像的直方图均衡、图像的平滑化及锐化处理等增强功能。
Fundus image preprocessing system consists of Color image processing, image geometric transformation and the image histogram equalization, the image smooth and sharpen enhancement function.
新的2~3值逻辑系统以传统的布尔2值逻辑系统为基础,并有可能应用于彩色光信号的传输、变换与处理等技术领域。
The new 2~3-valued logical system is based on the Boolean 2-valued logical system, and can be applied to color informational processing.
进而提出了复合彩色形态变换、彩色形态边缘。
Moreover, composite morphological transformations and color morphological edge extraction are proposed.
提出了基于小波变换的HSI空间的彩色纹理墙地砖图像的特征提取新算法,得到具有颜色、纹理和尺度融合信息的特征矢量。
A new feature algorithm is proposed based on wavelet transform in HSI space to obtain a feature vector with combining information of color, texture and scale.
通过多维全息调制板对空间频率进行调制,完成物-频-像的变换过程,可实现空间假彩色编码。
Modulation of spatial frequency by means of multidimensional holographic modulating board can bring about transformation from object via frequency to image and implement pseudo-color coding.
该系统主要包括图像采集、图像预处理、图像处理和图像识别等四大模块,主要涉及图像比例变换、平移变换、彩色图像二值化等内容。
It mainly includes four modules: image taking, image pretreatment, image treatment, and image recognition. It involves image proportion transform, translational transform, graying of color image etc.
提出了基于YUV彩色系统的形态变换。
Based on YUV color space, new color morphological transformations are proposed.
该系统实现了数字扫描变换(dsc)、测量诊断、伪彩色显示、大容量存储和诊断报告编辑功能。
The system offers many functions, such as DSC, measuring and diagnosing, great capability of storage and editing of diagnosis report, etc.
该方法利用三维帧内预测技术结合三维离散余弦变换有效地去除彩色图像相邻像素间以及R、G、B三帧之间的相关性。
The method utilizes three-dimensional intra-prediction combined with 3D-DCT to remove the correlations between adjacent pixels in an image and R, G, B frames efficiently.
该方法利用三维帧内预测技术结合三维离散余弦变换有效地去除彩色图像相邻像素间以及R、G、B三帧之间的相关性。
The method utilizes three-dimensional intra-prediction combined with 3D-DCT to remove the correlations between adjacent pixels in an image and R, G, B frames efficiently.
应用推荐