1) Generalized orthogonal complemented
![点击朗读](/dictall/images/read.gif)
广义正交可补
2) generalized orthogonality
![点击朗读](/dictall/images/read.gif)
广义正交
1.
The new concept of generalized orthogonality (GO) proposed by the author makes it possible for the signals to be mutually orthogonal within an orthogonal zone instead of a conventional orthogonal point.
作者提出的广义正交新概念 ,使得信号之间可以在一个区域内正交 ,而不是传统的单点正交。
2.
By using the generalized orthogonality principle, all the properties of a circle is successfully generalized to the case of an ellipse.
开发了一个使用广义正交概念的 K- RANSAC椭圆提取算法 。
5) generalized orthogonalities
![点击朗读](/dictall/images/read.gif)
广义正交性
1.
A conclusion about generalized orthogonalities in the space has been obtained,and the value of the non-square constant are given out.
讨论了对称Minkowski平面的基本性质,得到了这类空间的广义正交性的一个结论,并给出了此类空间非方常数的取值。
6) generalized orthogonal sets
![点击朗读](/dictall/images/read.gif)
广义正交组
1.
A generalized Schmidt s orthogonalization is constructed for transforming two linear independence sets with the same number of vectors to generalized orthogonal sets after introducing a conception of generalized orthogonal sets on weakly inner product.
引入两个向量组关于弱内积广义正交的概念,并构造了将两组含相同个数向量的线性无关组化为广义正交组的广义Schmidt正交化方法。
补充资料:补片教程-补六边缺口
补此面的方法:
1、insert /points set/points on curve/
选项中number of points 选的越大,补出的面质量越高
2、insert /free form feature /from point cloud
选择上部插入的点,作出补丁面
3,insert /form feature /extract curve
从空缺多边形的边缘提取出曲线
4、insert /form feature /extruded body
沿垂直曲面方向(此处可用草图建模作方向线)
拉伸上述曲线,制作切割工具面
5、insert /form feature /trimmed sheet
用上步拉伸的曲面切割上面作出的补丁面
6,inser feature operation / sew
缝合 that is all .
1、insert /points set/points on curve/
选项中number of points 选的越大,补出的面质量越高
2、insert /free form feature /from point cloud
选择上部插入的点,作出补丁面
3,insert /form feature /extract curve
从空缺多边形的边缘提取出曲线
4、insert /form feature /extruded body
沿垂直曲面方向(此处可用草图建模作方向线)
拉伸上述曲线,制作切割工具面
5、insert /form feature /trimmed sheet
用上步拉伸的曲面切割上面作出的补丁面
6,inser feature operation / sew
缝合 that is all .
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条