1) barycenter shift iteration method
重心偏移迭代方法
2) barycenter offset
重心偏移
1.
Movement analysis for the barycenter offset self-in-phase vibration screen;
重心偏移式自同步振动筛的运动分析
3) iterative methods
迭代方法
1.
And we will give the iterative methods for computing the weighted α β generalized inverse and the sufficient and necessary conditions are obtained.
然后又得到了几个计算该加权α β广义逆的迭代方法。
4) iterative method
迭代方法
1.
Without any functional expansions, accurate orientational distribution functions are obtained by using a newly iterative method to solve the equation of equilibrium state.
不用任何函数展开,通过迭代方法求解平衡态方程,得到精确的取向分布函数。
2.
By means of iterative method,the existence and convergence of the solutions are showed in case Ais invertible.
给出了当矩阵A奇异时,正定解X的最大特征值为1;利用迭代方法讨论了A非奇异时,解X的存在性和收敛
3.
In respect to the shortest path problem of the weighed direct graph,the iterative method of minimum algebra is established.
对有向赋权图的最短路问题建立了极小代数下的迭代方法。
5) iteration method
迭代方法
1.
A solution of a sort special matrix equation by iteration method;
用迭代方法解一类特殊的矩阵方程
2.
In this paper we present a new iteration method with high accuracy for solving nonlinear equations, This method has not only 5-order convergence but also avoids the operation of derivatives.
给出了一种新的求解非线性方程的迭代方法,该算法至少是5阶收敛且不用计算导数,具有收敛速度快,计算精度高的特点。
3.
The existence and uniqueness of the solution to the equation x=A(x,…,x) is studied in weaker condition by using the cones theory and iteration method.
利用锥理论与迭代方法,在较弱的条件下证明了非线性算子方程x=A(x,x,…,x)解的存在性与唯一性。
6) iterative technique
迭代方法
1.
Moreover,we get the conclusion that the conjugate space of Lp is Lq and, for application,the maximal and minimal solutions to a class of nonlinear integral equations in Hilbert spaces and relevant monotone iterative technique are studied.
作为应用,研究了Hilbert空间上的一类非线性积分方程最大解和最小解及其单调迭代方法。
补充资料:创建偏移剖面
要创建偏移剖面,必须通过在“草绘器”中进行草绘以定义切口轮廓。然后,垂直于草绘平面投影此轮廓。单击 或“视图”(View)>“视图管理器”(View Manager)。“视图管理器”(View Manager) 对话框打开。单击“剖截面”(Xsec)。单击“新建”(New)。出现一个缺省的剖面名称。按 ENTER 键。“剖截面创建”(XSEC CREATE) 菜单打开。单击“偏移”(Offset)>“一侧”(One Side) 或“双侧”(Both Sides)>“完成”(Done)。“选取”(SELECT) 对话框打开。选取草绘平面,并定义查看方向和草绘方向。进入“草绘器”。选取用于尺寸标注的参照图元。草绘剖面轮廓并单击 退出“草绘器”。 在“视图管理器”(View Manager) 中,单击“显示”(Display)>“设置可见性”(Set Visible)。“可见性”(Visibility) 对话框打开。单击“显示剖面线”(Show X-Hatching) 查看剖面。单击 预览或单击 接受选取的选项。
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