Component Assembling Model and Its Application to Quasi-Brittle Damage

Potential energy can be approximated by ‘‘pair-functional’’ potentials which is composed of pair potentials and embedding energy. Pair potentials are grouped according to discrete directions of atomic bonds such that each group is represented by an orientational component. Meanwhile, another kind of component, the volumetric one is derived from embedding energy. Damage and fracture are the changing and breaking of atomic bonds at the most fundamental level and have been reflected by the changing of these components’ properties. Therefore, material is treated as a component assembly, and its constitutive equations are formed by means of assembling these two kinds of components’ response functions. This material model is referred to as the component assembling model. Theoretical analysis and numerical computing indicate that the proposed model has the capacity of reproducing some results satisfactorily, with the advantages of physical explicitness and intrinsic induced anisotropy, etc.

Teracluster LSSC-II - Its Designing Principles and Applications in Large Scale Numerical Simulations

The teracluster LSSC-II installed at the State Key Laboratory of Scientific and Engineering Computing, Chinese Academy of Sciences is one of the most powerful PC clusters in China. It has a peek performance of 2Tflops. With a Linpack performance of 1.04Tflops, it is ranked at the 43rd place in the 20th TOP500 List (November 2002), 51st place in the 21st TOP500 List (June 2003), and the 82nd place in the 22nd TOP500 List (November 2003) with a new Linpack performance of 1.3Tflops. In this paper, we present some design principles of this cluster, as well as its applications in some largescale numerical simulations.

A new development on ANN in China - Biomimetic pattern recognition and multi weight vector neurons

A new model of pattern recognition principles-Biomimetic Pattern Recognition, which is based on "matter cognition" instead of "matter classification", has been proposed. As a important means realizing Biomimetic Pattern Recognition, the mathematical model and analyzing method of ANN get breakthrough: a novel all-purpose mathematical model has been advanced, which can simulate all kinds of neuron architecture, including RBF and BP models. As the same time this model has been realized using hardware; the high-dimension space geometry method, a new means to analyzing ANN, has been researched.

A new development on ANN in China - Biomimetic pattern recognition and multi weight vector neurons

A new model of pattern recognition principles-Biomimetic Pattern Recognition, which is based on "matter cognition" instead of "matter classification", has been proposed. As a important means realizing Biomimetic Pattern Recognition, the mathematical model and analyzing method of ANN get breakthrough: a novel all-purpose mathematical model has been advanced, which can simulate all kinds of neuron architecture, including RBF and BP models. As the same time this model has been realized using hardware; the high-dimension space geometry method, a new means to analyzing ANN, has been researched.

Deformation Monitoring and Forecasting Model Study Based on Grey System Theory

The grey system theory studies the uncertainty of small sample size problems. This paper using grey system theory in the deformation monitoring field, based on analysis of present grey forecast models, developed the spatial multi-point model. By using residual modification, the spatial multi-point residual model eras developed in further study. Then, combined with the sedimentation data of Xiaolangdi Multipurpose Dam, the results are compared and analyzed, the conclusion has been made and the advantages of the residual spatial multi-point model has been proved.

The elasto-damage theory of the components assembling model

The potential energy in materials is well approximated by pair functional which is composed of pair potentials and embedding energy. During calculating material potential energy, the orientational component and the volumetric component are derived respectively from pair potentials and embedding energy. The sum of energy of all these two kinds of components is the material potential. No matter how microstructures change, damage or fracture, at the most level, they are all the changing and breaking atomic bonds. As an abstract of atomic bonds, these components change their stiffness during damaging. Material constitutive equations have been formulated by means of assembling all components' response functions. This material model is called the component assembling model. Theoretical analysis and numerical computing indicate that the proposed model has the capacity of reproducing some results satisfactorily, with the advantages of great conceptual simplicity, physical explicitness, and intrinsic induced anisotropy, etc.

裸子植物的分类和系统发育研究—松科的分类、地理和种系发生研究，中国红豆杉科、三尖杉科、南洋杉科和银杏科的分类学研究

球果类植物是现存裸子植物中最为繁盛的一群，也是目前组成北温带森林植被的重要成分，我国是球果类植物科属的重要分布、分化或保存中心。对这些科属的分类和系统发育的研究，无疑对北温带的森林植被的研究，以及林业生产均具有重要的理论和实用价值．本研究即是围绕着球果类中的Pinaceae，Taxaceae及Cephalotaxaceae等科展开的研究，内容主要包括以下几方面： 一、在《中国植物志》第七卷的基础上，完成了《FLORA OF CHINA》中裸子植物Ginkgoaceae，Arancariaceae Pinaceae，Taxaceae，和Cephalotaxaceae各科的修订和编写． 建立2个新种、2个新变种、12个新组合、64个新异名、2个新分布，2个新启用名，分类群及其名称的变动和增补，以及增补异名57个。 二、根据植物的地理分布与系统发育统一的原理，在资料分析和实验的基础上，运用表征分析和分支分析研究方法，同时结合化石和地史资料，针对松科的分类、地理分布、以及起源分化和扩散等问题进行了一系列系统的研究，主要结论如下： 1．提出松科分类的新系统，将松科划分为三个亚科：松亚科Subfam．Pinoideae:仅一属Pinus Linn．： 落叶松亚科Subfam．Laricoideae Melchior＆Werderm, emend．N．Li et L.K．Fu：包括四属Larix Mill.，Cathaya Chun&Ku:tng, Picea A Dretr. andPseudotsuga Carr．;冷杉亚科Subfam．Abietoideae Pilger, emend．Frankis:包括五属Abies Mill．，Cedrus Trew, Pseudolarix Gord．，Keteleeria Carr.,and Tsuga Carr． 2．构思和绘出了以地质年代为纵座标的松科系统发育树。 3．进行松科植物分区，将松科划分为6区、4亚区。并分别附有分区图、各区所分布种数的统计表、以及各属目前的地理分布和化石分布图。 4．松科在地质时期曾是一个很庞大的类群，现代松科只是其祖先中少部分喜温性分支的后裔，其兴旺与温带成份的出现关系密切，可能是一类衍生类群． 5．松科的起源时间虽然可追溯到侏罗纪甚至三迭纪，但现代松科各属的出现时间大约是在早白垩纪至第三纪之间。 6．松科各属可能并非起源于同一时间和地点。松属可能是现存的、最早分化出来的类群，于侏罗纪至早白垩纪间起源于欧美古陆;其它属则到晚白垩纪至第三纪早期（有1-2属至中期）才陆续从其祖先复合体中分化出来。 7．现代松科的早期扩散可能存在着以下三条主要的迁陡路线，即：欧美路线、欧亚路线和古白令路线．