1·Image of graphical solution outline.
图形化解决方案概要的图片。
2·A method for separating double-overlapping Gaussian peaks by computer graphical solution is presented.
提出了一种分离双重高斯峰的方法——计算机图解法。
3·A graphical solution is then obtained by the combined use of the calculating form and the table (or the rule).
并将计算格式同产状计算表(或计算尺)配套使用,然后作图求解。
4·With the help of auxiliary variables or plane, a graphical solution for homogeneous linear equations is presented.
借助于辅助变量,或辅助平面,提出了齐次线性方程组的图解法。
5·Read Sections 7.1-7.3 of Chapter 7. We will cover the basics of linear optimization, including formulations, key concepts, and graphical solution methods.
阅读第七章7.1到7.3的部份。我们的课程将介绍线性最佳化的基础,包括方程序,重要概念以及图形解方法。
6·This paper solves some special estimating value problems of double integral with the help of the optimality principle and graphical solution of the linear programming.
利用线性规划论的最优性原理和图解法解决一些特殊二重积分的估值问题。
7·Solution: Design an example graphical interface first, so that interface requirements for the lower levels are known before they are written.
解决方案:首先设计一个示例图形界面,则低层的界面在写之前就大概知道该是什么样了。
8·Starting a solution information project displays a graphical navigation tree into which you can drag and drop information, such as presentation files.
启动解决方案信息项目后将显示一个图形导航树,您可以在其中拖拽信息,比如演示文件。
9·Also, both the developer and application code must directly manipulate XML artifacts because the solution does not provide a graphical editor.
同时,由于这一解决方案未提供图形化的编辑器,开发者和应用代码都必须直接操纵XML工件。
10·Figure 2 shows a graphical representation of the solution.
图2显示了此解决方案的图形表示形式。