1.
Pansystems Methodology:the Crossing Theory of All Kinds of Objects Edge --Writting on the 15th Anniversary of the book “The Corpus Of Pansystems Methodology”;
泛系方法论:百科交缘的横断理论——《泛系方法论文集》出版十五周年记
2.
Research on Similarity Rough Set Theory Based on Pansystems;
基于泛系方法论的相似关系粗糙集理论研究
3.
Research on Rough Set Rules Extraction Based on Pansystems Theory
基于泛系的粗糙集规则提取方法研究
4.
Variational Lyapunov Method and Stability Theory for Impulsive Functional Differential Systems;
变分Lyapunov方法与脉冲泛函微分系统的稳定性理论
5.
A Method of Improving Neural Network Ensemble System's Generalization Error
一种提高神经网络集成系统泛化能力的方法
6.
Similar methods are being put into use on a wide scale.
类似的方法正广泛采用。
7.
On the New Thought of Pan systematic Law--Legal exploration into pan systematic relativity;
泛系法学新思维——泛系相对论的法理学探索
8.
Stability Analysis of θ-methods for Functional Differential and Functional Equations
泛函微分与泛函方程θ-方法的稳定性分析
9.
Expertise in using on-line methods has of course developed as the systems have become more widely available.
随着联机系统越来越广泛的使用,检索方法也日趋专门化。
10.
Theoretiacal Investigation on Organic Reaction and Organic Molecules-catalyzed Reaction Using DFT Methods;
密度泛函方法对有机反应和有机催化反应体系的理论研究
11.
Theoretical Investigation on Organic Molecules-Catalyzed Reaction and Organic Functionalization on the Si(100)-2×1 Surface Using DFT Methods;
密度泛函方法对有机催化体系和表面反应的理论研究
12.
ESTABLISHMENTOF A METHOD FOR DYNAMICALLY DETECTING ACTIVITY OF UBIQUITIN-PROTEASOME SYSTEM IN LIVING CELLS
动态检测活细胞内泛素-蛋白酶体系统活性方法的建立
13.
Here we proposes a program of calculating large-change sensitivity.
本文给出一种计算大变化灵敏度的方法,该方法功能全,应用广泛,并给出软件系统的研制报告。
14.
Dissipativity of Numerical Methods for Volterra Functional Differential Equations;
Volterra泛函微分方程数值方法的散逸性
15.
Method and Formula to Extraordinary Solution of Class 1 Mould Function Differential Equation;
一类泛函微分方程求特解方法及公式
16.
Dissipativity of linear θ-methods for Volterra functional differential equations
Volterra泛函微分方程线性θ-方法的散逸性
17.
A systematically arranged and comprehensive collection of laws.
法典系统编排和广泛收集的法律汇编
18.
Jurisprudence was separated from philosophy, which is the joint name of all original sciences.
若泛泛而论,作为法的一般理论的西方法理学甚至先于法学而出现。