1) fine law
精细之法
1.
To make it clear,we should be aware that the constitution is a parent law instead of a public law,that it is a subjective law as well as an objective law,and that it is both a fundamental law and a fine law.
正本清源,宪法不是母法,是公法;宪法是主观法,也是客观法;宪法是根本大法,也是精细之法。
2) precise algorithm
精细算法
1.
A general numerical model to identify multi-variables of the unidimensional non-linear inverse problem of heat conduction in transient state is presented by a precise algorithm for direct heat conduction, based on Bregman distances in the construction of regularization terms in Tikhonov’s function.
基于一种时域正演精细算法,引入Bregman距离函数作为Tikhonov函数的正则项,建立了求解多宗量一维瞬态非线性热传导反问题的数学模型,可对非线性内热源强度、导温系数和边界条件等多个热学参数进行组合识别。
2.
An application of a self-adaptive precise algorithm in time domain is presented in this paper for solving self-excited vibration problems.
应用时域自适应精细算法求解自激振动问题,将各物理量在离散时段内展开,可进行自适应递推计算,对非线性计算不做附加假设,避免了非线性迭代。
3) precise integration method
精细算法
1.
Based on the precise integration method of the exponential matrix, we discuss the solution of the state equations for nonlinear dynamics system governed by the equation =H·v+f(v,t).
基于指数矩阵精细算法,对非线性动力状态方程 v=H·v+f(v,t)进行求解。
2.
To raise the calculation precision of active structural control, the closed-loop and closed-open-loop control algorithms for instantaneous structural optimization were improved based on the active structural control strategy and the precise integration method (PIM).
为了提高结构控制算法的计算精度,基于动力系统精细算法及结构主动控制原理,对结构瞬时优化闭环及开闭环控制算法进行了改进。
4) fine method
精细方法
1.
In this paper,new methods for calculating expanded uncertainty——simplified method and fine method are put forward.
提出了扩展不确定度的新计算方法——简化方法和精细方法。
5) precise integration method
精细积分法
1.
Investigation on the precise integration method in structural dynamics;
关于结构动力学中精细积分法的研究
2.
Increment-dimensional precise integration method for nonlinear dynam icequation;
非线性动力方程的增维精细积分法
3.
The high accuracy numerical solutions of the system are obtained using precise integration method.
在结构连续化假定的基础上,将内筒和外筒视为铁摩辛柯梁,同时考虑内筒和外筒的剪切与弯曲变形,建立了筒中筒结构协同分析的哈密顿对偶体系,导出了相应的状态空间方程,其系统矩阵具有辛矩阵的特性,可用精细积分法求该体系的高精度数值解。
6) precise time-integration method
精细积分法
1.
A precise time-integration method is proposed for solving a higher-order parabolic equation with initial conditions and periodic boundary conditions.
文末的数值算例进一步表明,精细积分法对大的时间步长和长时间计算均有效,因此是一种很实用的方法。
2.
By means of error analysis of recursion process of precise integration, the authors discover the essential reason of obtaining the high precise numerical results of exponential matrix exp(A) in the precise time-integration method , which is that the relative error of numerical computation is not enlarged in a whole recurrent process.
通过对精细积分法递推过程的误差分析 ,发现该方法能获得高精度数值结果的根本原因是 :数值计算的相对误差不随递推过程的进行而扩散。
3.
The purpose of this paper is to apply precise time-integration method on the elastoplastic seismic response of short-leg shear wall structure.
为避免精细积分法中的矩阵求逆,采用龙格-库塔法计算状态方程的非齐次项,并与指数矩阵的精细算法结合,应用在短肢剪力墙结构的弹塑性地震反应分析中。
补充资料:法性属法为法性土
【法性属法为法性土】
谓真如法性之理,譬如虚空,遍一切处,乃是法身所证之体,即为所依之土,故名法性属法,为法性土。
谓真如法性之理,譬如虚空,遍一切处,乃是法身所证之体,即为所依之土,故名法性属法,为法性土。
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