1)  image gradient
图象梯度
2)  image
图象
1.
Fingerprint image pretreatment and arithmetic research;
指纹图象的预处理及其算法研究
2.
Research on the Image Automatic Aiming System;
图象式自动瞄准系统的研究
3.
Tools path generation technology based on image;
基于图象的刀具路径生成技术
3)  picture
图象
1.
Specialist analysis system of furnishing and endmost section of sinter machine automatic supervision picture;
烧结机布料及机尾断面自动监测图象专家分析系统
2.
Using PowerBuilder to Dynamically Retrieve Picture Database;
PowerBuilder实现的图象数据库动态检索
3.
The pictures of Huanghua pears were analyzed with a computer vision system.
通过计算机视觉系统摄取黄花梨图象,应用图象处理技术完成图象与背景的分割。
4)  images
图象
1.
This papr introduces the basic concepts of the vector about the images and the process before the image vector.
介绍图象矢量化的基本概念和矢量化前的图象处理过程,同时给出一种任意角度直线的矢量化算
2.
It represents the teaching contents of Assembly Drawing with graphices, images, 2D and 3D animation, text, voices interactively.
它以图形,图象,二维动画,三维动画,文字,声音,音乐和各种交互手段生动地表达了装配图的教学内容,供工程图学教师课堂教学和学生自学使用。
5)  graph
图象
1.
The authors first introduce the notion of Tikhonov well-posedness of set-valued mappings for fixed points under graph,which is an inprovement of Tikhonov well-posedness of single-valued mappings for fixed points under values in Lemaire et al.
引入了集值映射不动点在图象意义下的Tikhonov良定性概念。
2.
This essay studies the graph characteristics method of parameter curve and its describing mdthed and the evaluation of the plane region area closed by itself.
研究参数方程所示曲线的图象特点及描绘方法、自身封闭所围平面图形的面积的求法 ,弥补了现行教材的不
3.
The graphs of the process of transient state of the driven harmonic oscillator are analysedcomprehensively,and the relevant graphs are plotted by a sort of computer algebra system-DERIVE.
本文对受迫振动暂态过程的图象做了全面分析,用计算机代数系统──DERIvE做出了有关图象,指出了国内一些物理学教科书中所描述的受迫振动暂态过程图象的错误。
6)  Original image-image
原图象-图象
参考词条
补充资料:图的减缩图(或称图子式)


图的减缩图(或称图子式)
minor of a graph

图的减缩图(或称图子式)【.皿以ofa脚户;MHHoPrpa中a」【补注】设G是一个图(graph)(可以有环及多重边).G的一个减缩图(nullor)是从G中接连进行下述运算而得的任何一个图: i)删去一条边; 五)收缩一条边; 说)去掉一个孤立顶点. NRobe由on与P.D.Se脚aour的图减缩定理(脚Ph nl的。r theon习11)如下所述:已知有限图的无穷序列G,,GZ,…,则存在指标i
说明:补充资料仅用于学习参考,请勿用于其它任何用途。