• 摘要

International Conference on Multilevel Iterative Methods
August 14--18, 2006, Beijing
http://ccse.pku.edu.cn/06summerschool/ob.html
http://ccse.pku.edu.cn/06summerschool

The purpose of this conference is to get together researchers in the worldespecially in China and neighboring Asian countries to exchange recent ideasand results in multigrid/multiscale and domain decomposition methods, iterative adaptive methods and related topics. General major topics to be covered (but not limited): Multigrid methods, Domain decomposition methods, Multilevel (two-grid) discretization methods, Method of subspace corrections, Adaptive methods, Applications .

Plenary Speakers:

Deulfhard, Peter (ZIB, Germany)
Holst, Michael (University of California, USA)
Hoppe, Roland (University of Houston, USA)
Kako, Takashi (University of Electro-Communications, Japan)
Stevenson, Rob (Utrecht University, Netherlands)
Schoeberl, Joachim, (University of Linz )
Sheen, Dong Woo (Seoul National University, Korea)
Shi, Zhongci (Chinese Academy of Sciences, China)
Wang, Junping (Colorado School of Mines, USA)
Wittum, Gabriel (University of Heidelberg, Germany)
Xu, Jinchao (PKU and XTU, China)

Program Committee:

Chen, Zhimin (Chinese Academy of Sciences, China)
Chern, I-Liang (National Taiwan University, Taiwan, China)
Huang, Yunqing (Xiangtan University, China)
Kako, Takashi (The University of Electro-Communications, Japan)
Mo, Zeyao (Inst. Appl. Phsy. Comp. Math., China)
Sheen, Dong Woo (Seoul National University, korea)
Shi, Zhongci (co-chair, Chinese Academy of Sciences, China)
Wittum, Gabriel (Stuttgart University, Germany)
Xu, Jinchao (co-chair, PSU, USA)
Zhang, Pingwen (Peking University, China)
Zhang, Wenling (National Natural Scinece Foundation of China)
Zhou, Aihui (Chinese Academy of Sciences, China)
Zou, Jun (The Chinese University of HK, China)

CONFERENCE SECRETARY:

Liang, Lan
Email: lianglan@pku.edu.cn
Tel: 86-10-62759090
Fax: 86-10-62767146
web page: http://ccse.pku.edu.cn/06summerschool

• 摘要

NCTS International Workshop on Scientific Computing
June 26-30, 2006
Condensed Matter Science & Physics Building
National Taiwan University
Taiwan
http://www.math.ntu.edu.tw/~shyue/sc06.html

Conference Theme:

There has been significant progress in scientific computing,particularly in  the diverse fields of multiscale computations and imaging.One of the focusses of multiscale computation concentrates on problems where classical single physics models are either inadequate or not accurate enough,and a coupling of multiple physics models needs to be considered.In particular,there is an emergence of methods that replace heuristics and empirical observations in coarse scale  single physics models by direct numerical simulations of more accurate models defined on finer scales.PDE-based techniques for imaging received a lot of attention due to its success in removing noise and segmenting salient features in images. Many of the approaches are closely related to inverse problems and interface problems.

On the other hand,many of the important results have been driven by the need  to separate features of different length scales. The field of high frequency wave propagation, for instance, is to compute effective wave behavior at length  scales that are much large than the wavelength.It is vital for telecommunication,radar and seismic imaging. Novel and robustmethods have been introduced and advanced in recent years. Phase-spaced methods enable efficient computation of multivalued solutions that are previous too complicated to compute.

From computational techniques view point: the level set method made impact  on a diversity of applications including free interface problems and a number of inverse problems that involve complicated shapes and topology; the discontinuous Galerkin methods provide possibility of high order accuracy and adaptivity  in solving hyperbolic problems and can be applied to a wide range of problems including ones alluded above. Even though these fields appear to be diverse and have different concerns for the respective applications,they share common objectives and difficulties at a higher level, and may benefit from closer interactions among the engaging  scientists.

This workshop brings some of the world's leading experts in these fields together and aims at

1) providing an opportunity for direct communication and exchange of ideas;
2) promoting interaction and collaboration of local and international scholars.

Invited Speakers:

Weizhu Bao U Singapore
Chien Cheng Chang National Taiwan U
Tony Chan U California- Los Angeles
Min-Hung Chen National Cheng Kung U
Zhiming Chen Chinese Academy of Science
I-Liang Chern National Taiwan U
Li-Tien Cheng U California- San Diego
Cheng-Sheng Chien National Chung Hsing    U
Bernardo Cockburn U Minnesota
Chien-Sen Huang National Sun Yat-Sen U
Qiang Du Penn State U
Wai-How Hui Academia Sinica
Bjorn Engquist U Texas-Austin
Tsung-Min Hwang National Taiwan Normal U
Selim Esedoglu U Michigan
Ming  Chih Lai National Chiao Tung U
Thomas Y. Hou Cal Tech
Wen-Wei Lin National Tsing Hua U
Shi Jin U Wisconsin-Madison
Jinn-Liang Liu National Kaohsiung U
Rajiv Kalia U Southern California
Tony Wen-Hann Sheu National Taiwan U
Chiu-Yen Kao U Minnesota
Shih-Feng Shieh National Tsing Hua U
Mitchel Luskin U Minnesota
Jerry Yin-Tzer Shih National Chung Hsing U
Stanley Osher U California- Los Angeles
Keh-Ming Shyue National Taiwan U
Fernando Reitich U Minnesota
Chun-Hao Teng National Cheng Kung U
Olof Runborg KTH, Sweden
Wei Cheng Wang National Tsing Hua U
Fadil Santosa U Minnesota
Wei Chung Wang National Kaohsiung U
Jie Shen Purdue U
Jaw-Yen Yang National Taiwan U
Chi-Wang Shu Brown U
Tao Tang Baptist U, HK
Richard Tsai U Texas-Austin
Eric Vanden Eijnden New York U
Priya Vashishta U Southern California
Pingwen Zhang Peking U, China
Organizing Committee:

I-Liang Chern National Taiwan University
Chiu-Yen Kao U Minnesota
Ming Chih Lai National Chiao Tung University
Wen-Wei Lin National Tsing Hua University
Richard Tsai U Texas-Austin
Wei Chung Wang National Tsing Hua University
Sponsors:

National Center for Theoretical Sciences, National Science Council, Taiwan National Taiwan University
Conference Venue:

The conference will be held at the Condensed Matter Science & Physics Building of National Taiwan University. Information desk and internet access will be available during the conference.
Registration & Talk Submission:
All participants in the conference must register. There is no registration fee however.
To register and submit a talk with title and abstract, please complete the  on-line registration form. Note that for a talk submission, we only accept MS-word  and latex formats. The invited speakers can use the on-line registration form to submit their title and abstract for the workshop.
Contact Information:

Miss Mei-Hui Hsiao
Department of Mathematics
National Taiwan University
Taipei, Taiwan
Phone: (8862) 3366-3229
Fax: (8862) 2391-4439
Webpage: http://www.math.ntu.edu.tw/~shyue/sc06.html

• 摘要

The 3rd International Conference on Mesoscopic Methods
in Engineering & Science (ICMMES)
July 24-28, 2006, Hampton, Virginia, USA,
http://www.icmmes.org.

The 3rd International Conference on Mesoscopic Methods in Engineering &Science (ICMMES-06, http://www.icmmes.org) will be held at RadissonHotel Hampton, Virginia, USA, in July 24-28, 2006. The focus of theConference series is mesoscopic/kinetic methods (e.g., LBE, LGA, DPD, DVM, GKS, and SPH) for computational mechanics in its broadestsense. Specific areas include, but are not limited to, mesoscopic / kinetic methods applied for:

1. Computational Fluid Dynamics (CFD), including Direct NumericalSimulations (DNS), Large-Eddy Simulations (LES), and macroscopic as wellas kinetic turbulence modelling;

2. Rheology for complex fluids, such as suspensions, multi-phase and multi-component fluids, non-Newtonian fluids, electro-rheological (ER)and magneto-rheological (MR) fluids (smart fluids) and bio-fluids;

3. Nano-scale phenomena involving non-continuum, surface-dominated, low-Reynolds-number, non-Newtonian, multi-scale and multi-physics effects;
4. Computational mechanics of solids and structures;
5. Computational multi-physics dynamics, such as flow-structure interactions;
6. Algorithms for High Performance Computing (HPC) engineering applications.

The objectives of the Conferences are:

1. To bring together researchers and practitioners from academia,research institutions and industry to exchange experiences, disseminate up-to-date information, and explore new opportunities in the field;

2. To expose young or new researchers to the state of the art in the field, by means of, in addition to the Conferences, short courses and the internet media;
3. To play a leading role in reseach and development in the field.

The conference will focus on computational methods for challenging engineering problems based on mesoscopic methods, including (but not limited to) the lattice Boltzmann equation (LBE), lattice-gas cellular automata (LGCA), discrete velocity models (DVM), gas-kinetic schemes (GKS), dissipative particle dynamics (DPD), and smooth-particle hydrodynamics (SPH).

For more details, please go to the ICMMES website:

http://www.icmmes.org.

ICMMES Scientific Committee:

Prof. John Abraham

School of Mechanical Engineering
Purdue University, USA

Prof. Ali Beskok

Department of Mechanical Engineering
Texas A&M University, USA

Dr. Jos J. Derksen

Kramers Laboratorium voor Fysische Technologie
Technical University of Delft, The Netherlands

Prof. Franz Durst

Institute of Fluid Mechanics (LSTM)
University of Erlangen, Germany

Prof. Sharath Girimaji

Department of Aerospace Engineering
Texas A&M University, USA

Prof. Michael Junk

Fachbereich Mathematik und Statistik
University of Konstanz, Germany

Prof. Axel Klar

FB Mathematik
Technical University of Kaiserslautern, Germany

Prof. Manfred Krafczyk, Co-Chairman

Institute for Computer Applications in Civil Engineering (CAB)
Technical University of Braunschweig, Germany

Prof. Anthony J.C. Ladd

Department of Chemical Engineering
University of Florida, USA

Prof. Pierre Lallemand

ASCI Laboratory
Universit?Paris Sud, France

Prof. Li-Shi Luo, Co-Chairman

Department of Mathematics and Statistics
Old Dominion University, USA

Prof. Dimitri Mavriplis

Department of Mechanical Engineering
University of Wyoming, USA

Prof. Taku Ohwada

Department of Aeronautics and Astronautics
Kyoto University, Japan

• 摘要

2006 年《北京大学特别数学讲座》第九期

课 程 安 排

由我院举办的“特别数学讲座”第九期将于2006年6月中旬至7月底继续举行，讲座课程和主讲教授基本信息如下：
1. 课程名称：A Basic Introduction to Geometric Measure Theory

Abstract: In many problems in PDEs and calculus of variations, low dimensional sets in Euclidean spaces arise naturally. Well known examples include singular sets of minimal surfaces and harmonic maps. Geometric measure theory is developed to treat those sets. The course is divided into three parts. In the first part, we　 introduce the Hausdorff measure, which measures the size of low dimensional sets. In the second part, we discuss area and coarea formulas, which are important in the calculation in the measure of those sets. In the final part, we discuss countably rectifiable sets, which are the basic object in geometric measure theory. Usually, it is the starting point for a fine regularity. Prerequisite knowledge is kept to a minimum. We only assume some basic knowledge of measures and integrations.

主讲教授：Prof. Han Qing（Notre Dame University，USA）
授课时间：June 12 – June 30

--------------------------------------------------------------------------------
2. 课程名称：Subfactors and its applications
Abstract: I will lecture on the basics of subfactor theory invented by Vaughan Jones and describe some of its applications.
主讲教授：Prof. Xu Feng (University of California at Riverside, USA)
授课时间：July 3 – July 28

--------------------------------------------------------------------------------
3. 课程名称：Mathematical aspects of general relativity

Abstract:

主讲教授：1. Prof. Qing Jie (UCSC, USA)
   　　　　 2. Prof. P. T. Chrusciel (University of Tours, France)　　
授课时间：June 20 – July 15

--------------------------------------------------------------------------------
4. 课程名称：Khovanov Knot Homology
Abstract: We will introduce the construction of Khovanov knot homology in  this course. The highlight of this combinatorial construction is to give a proof of Milnor's conjecture about the slice genus of torus knots, which was proved previously using gauge theoretical techniques.

主讲教授：Prof. Lin Xiaosong (University of California at Riverside, USA)

授课时间：July 3- July 14

--------------------------------------------------------------------------------
5.课程名称：Integer valued invariants in real enumerative geometry

Abstract: I will explain how to extract from classical problems of real enumerative geometry some integer valued invariants. As in the theory of Gromov-Witten invariants, these invariants are in fact attached to the underlying real symplectic manifold  and only depend on its deformation class. The problems that will be discussed will concern real symplectic four-manifolds even though similar phenomenons apppear in any dimension. They will actually mostly concern the number of real rational planar curves of degree d which pass through 3d-1 points, or the number of  real planar conics tangent to five given real planar conics.
The course will be organized around the following talks:
1,2) Examples of problems of real enumerative geometry and the associated invariants of real symplectic four-manifolds.
3) Moduli space of real rational pseudo-holomorphic curves of a real symplectic four-manifold.
4) Critical points and Gromov's compactness theorem.
5,6) Proofs of the main results.
主讲教授：Prof. Y.-V. Welschinger (ENS Lyon, France)

授课时间：July 3 -July 15

--------------------------------------------------------------------------------
除上述课程外，田刚教授等还将组织一些专题讨论班，另有一些教授短期来访做学术报告，欢迎参加。
1、数学特讲办地址：北京大学理科楼群一号楼1282E（邮编100871），
电话：010-62759534，E-mail: 1282@math.pku.edu.cn。

2、报名时间：4月1日至5月10日(申请表格可从网上下载，非北大生源的同志报名时请寄回由导师推荐信和所在单位加盖公章的申请表，同时在线登记，并用E-mail发送一份，以便核查)

3、报名时请写清楚您的详细地址、E-MAIL以及联系电话。

4、各课程的讲课时间可能还会有调整，请及时注意通知。

5、包括各课程内容摘要等在内有关信息可以到网上查询了解,
http://www.math.pku.edu.cn:8000/misc/jiangzuo/jinagzuo.htm
北京大学数学科学学院

北京大学数学研究所

北京大学数学及其应用重点实验室

• 摘要

第三届材料科学的数学理论夏季培训班
凝固过程动力学与相场模型的数值模拟
（第一次公告，2006.2.21）
1. 夏季培训/研讨班的宗旨和形式

全国第三届材料科学的数学理论夏季培训/研讨班将于2006年6月下旬在天津南开大学举行。本届夏季培训/研讨班将交流国内在材料科学、晶体生长的数学研究领域内，当前研究发展状况，报告与讨论研究成果，讲解与研讨该领域所采用的重要的数学方法。材料科学数学理论夏季培训/研讨班最初由南开大学特聘讲座教授、加拿大麦吉尔(McGill)大学终身教授J.J.Xu（徐鉴君）发起与倡导。徐鉴君教授长期从事晶体生长动力学，交界面微结构的形成与选择机制的研究，系统地创立与发展了“枝晶生长的界面波理论” 夏季培训/研讨班的宗旨为将材料科学、凝聚态物理、应用数学等领域的专家学者、教师、研究生聚集在一起，探讨材料生长系统中的复杂现象，为不同背景（实验的或理论的、材料的或数学的）的人士提供一个交流思想，比较研究方法和结果的平台和机会。期望通过定期开展这种培训/研讨活动能进一步促进国内数学、物理与材料科学领域的研究生、学者之间横向的切磋交流；建筑良好合作关系；在国内发展一支从事材料科学的数学研究的学术队伍。
第一、二届夏季培训班由南开大学、北京科技大学联合筹备，已于2004、2005年分别在南开大学、北京科技大学成功举办， 参会者来自全国各地高校、科研单位。

2. 本届夏季培训/研讨班主题
定向凝固过程动力学的若干问题。
晶体生长和相场模型的数值模拟方法
其它

3. 初步意向报告人
拟邀请的部分报告人名单：
徐鉴君 教授 （加拿大McGill大学教授；南开大学讲座教授）
蓝崇文， 台湾国立大学
黄卫东
陈明文
胡国辉
Stephen Davis，美国西北大学。（待定）

4. 会议时间与地点
会议时间：2006年6月30～7月6日
地点：南开大学数学学院

5. 报名
请报名参会者于2006年3月20日之前，与本次会议筹备组联系，将公告中的回执邮寄或email至下面的地址。
天津市南开区卫津路 94号, 南开大学数学学院203室,“材料与生物科学的数学基础研究所（筹备组）” 褚佳强 邮政编码：300071，联系电话：021-23501781，022-81341030。
或寄电子邮件至：Turbo_chu@nankai.edu.cn（建议采取email方式）。
注：研究生报名参加本次会议需写明目前的研究方向并提供导师的推荐信。青年教师申请参加本次会议的请写明目前的研究方向

6. 注册费与资助方式
本次培训班的注册费为200元/人，同时对有经济困难的研究生将提供适当的资助。有此需要的参加者可向筹备组提出申请。具体资助方式根据报名情况确定。

• 摘要

名字：沃尔夫勒姆研究巡回讲座—中国系列
日期：2006年5月19日-30日
地点：请在http://www.wolfram.com/services/seminars/china2006/schedule.html查阅完整的时间表
网址：http://www.wolfram.com/services/seminars/china2006/
电话：+1-217-398-0700
Email：china-tour@wolfram.com

活动介绍：

沃尔夫勒姆研究中国系列讲座将由Mathematica高级内核工程师胡一凡博士主讲。这些讲座将从专家的视角帮助听众深入了解科技计算领域并展示Mathematica对教育和研究的影响。讲座后会有问答活动时间。

任何希望了解科技计算对教育和研究的潜在影响的人员都将受益于这次讲座。Mathematica初学者将对这个系统有一个总的了解并获取关于软件设计的初步介绍。而Mathematica高级用户将对具体的设计决策有一个进一步的认识。

Name: Wolfram Research Tour of China

Dates: 19-30 May 2006
Where: See the full schedule online at
http://www.wolfram.com/services/seminars/china2006/schedule.html
URL: http://www.wolfram.com/services/seminars/china2006/
Phone: +1-217-398-0700
Email: china-tour@wolfram.com

Description:

The Wolfram Research Tour of China consists of a series of lecture presentations by Mathematica developer Dr. Yifan Hu. The lectures will provide expert insights into the world of technical computing and demonstrate Mathematica's impact on methods in education and research. A question-and-answer session will follow each presentation. Anyone with an interest in the potential impact of technical computing on education and research will benefit from this lecture. Mathematica novices will gain an overview of the system and an introduction to software design, while experts will gain further understanding of specific design decisions.

• 摘要

Computational Methods for Multiphase Flows in Porous Media

Zhangxin Chen, Guanren Huan, and Yuanle Ma

Computational Science and Engineering 2
SIAM, Philadephia, PA, 2006
http://www.ec-securehost.com/SIAM/CS02.html

"This book is quite complete and self contained. It is up to date and covers a wide range of topics, all of which are pertinent. The presentation seems accessible to beginners, and yet it also has enough advanced material to be of interest to experts." -- Todd Arbogast, Professor, Institute for Computational Engineering and Sciences, University of Texas, Austin.

"This is a well-structured book covering a field that, as far as I am aware, has not already been dealt with. It will be an excellent supplement to existing books."-- Rainer Helmig, Professor, Institute of Hydraulic Engineering, University of Stuttgart, Germany.

"This book offers a fundamental and practical introduction to the use of computational methods, particularly finite element methods, in the simulation of fluid flows in porous media. It is the first book to cover a wide variety of flows, including single-phase, two-phase, black oil, volatile, compositional, nonisothermal, and chemical compositional flows in both ordinary porous and fractured porous media. In addition, a range of computational methods are used, and benchmark problems of nine comparative solution projects organized by the Society of Petroleum Engineers are presented for the first time in book form."
"Computational Methods for Multiphase Flows in Porous Media reviews multiphase flow equations and computational methods to introduce basic terminologies and notation. A thorough discussion of practical aspects of the subjects is presented in a consistent manner, and the level of treatment is rigorous without being unnecessarily abstract. Each chapter ends with bibliographic information and exercises." -- Society for Industrial and Applied Mathematics, Philadephia, USA.
Contents:

Chap. 1. Introduction
Chap. 2. Flow and Transport Equations
Chap. 3. Fluid and Rock Properties
Chap. 4. Numerical Methods
Chap. 5. Solution of Linear Systems
Chap. 6. Single Phase Flow
Chap. 7. Two-Phase Flow
Chap. 8. The Black Oil Model
Chap. 9. Compositional Flow
Chap. 10. Nonisothermal Flow
Chap. 11. Chemical Compositional Flow
Chap. 12. Flows in Fractured Porous Media
Chap. 13. Well Modeling
Chap. 14. Special Topics
Nomenclature
Units
References
Index

• 摘要

《混合有限元法基础及其应用》 科学出版社

丛书：大学数学科学丛书 10

作者：罗振东
ISBN：7-03-016821-6
定价：55.00元； 初版日期：2006.3
联系人：科学出版社 吕虹 lvhong1@yahoo.com.cn

内容简介：

本书首先简单介绍有限元方法,然后着重介绍混合有限元法的基本概念、基本理论、基本方法及其应用.本书共五章,第1章主要介绍有限元法的基本理论,给出有限元法的适定性和收敛性的理论分析;第2章主要介绍混合有限元法的基本理论及其在线性微分方程中的应用,介绍线性微分方程的混合变分形式和混合有限元格式;第3章主要介绍非线性发展方程的混合有限元法，介绍Burgers方程，RLW方程和非饱和水流方程的混合有限元法及其数值模拟；第4章主要介绍定常的热传导-对流方程的混合有限元方法，主要讨论其广义解的存在唯一性和各种混合元法(包括一般混合有限元法,Galerkin-Petrov最小二乘混合元方法,非线性Galerkin混合元法,非线性Galerkin-Petrov最小二乘混合元法等).第5章主要介绍非定常的热传导-对流方程的混合有限元方法，主要讨论其广义解的存在唯一性和各种混合元法(包括半离散化和全离散化的混合有限元法,半离散化和全离散化的非线性Galerkin混合有限元法,以及特征混合有限元法等).本书通过一些典型的例子和一些本学科的前沿应用实例说明混合有限元方法的应用前景,其中包括作者近年来的一些研究的结果，读者可以从中了解到混合有限元方法的发展新动向.
本书内容丰富,编排上采用循序渐进方式,先从典型的问题着手,再进行分析讨论,导出有关理论方法,易于读者理解掌握.本书既适合理科和工科院校相关专业的研究生或本科生作为教材，又可以作为从事数值分析的工程技术人员自学和进修计算方法的参考书.

• 摘要

Journal of Algorithms and Computational Technology
ISSN 1748-3018
Multi-Science Publishing Company
www.multi-science.co.uk

First issue: March 2007

Editor

C.-H. Lai
School of Computing and Mathematical Sciences
University of Greenwich, UK
Email: C.H.Lai@gre.ac.uk
Tel: +44 20 8331 8712
Fax: +44 20 8331 8665

Editorial Board
Europe representative:
F. Magoules, Universite Henri-Poincare France

Asia representative:

T. Tao, The Hong Kong Baptist University, China

North America representative:

V. Voller, University of Minnesota, USA

Board members:

T. Alexandra, Queen Mary, University of London, UK
X.-C. Cai, University of Colorado, Boulder, USA
S. Cox, University of Southampton, UK
C. C. Douglas, Yale University, USA
M. S. Espedal, University of Bergen, Norway
Q. Guo, Wuhan University of Technology, China
T. Kako, The University of Electro-Communications, Japan
G. Lube, University of Gottingen, German
Y. Maday, Universit?Paris VI, France
L. Pavarino, University of Milano, Italy
K. A. Pericleous, University of Greenwich, UK
S. Vandewalle, Katholieke Universiteit Leuven, Belgium
A.E.P. Veldman, Groningen University, the Netherlands
A. Y. Zomaya, The University of Western Australia, Australia

Aims

The journal aims to serve an interdisciplinary community which needs to use mathematical techniques in the development of computational analysis and engineering methodology, in order to better solve real life problems in areas including engineerng, science, noise, vibration, energy, business and finance, etc. It also aims to bridge the subject areas of mathematics, classical computer science, engineering, and future generation computational analysis.

Scope
The journal is fundamentally different from many journals of numerical analysis, computational analysis, and algorithms. The acceptance of papers is judged on the use of mathematical techniques and/or engineering methodology in the computational analysis, and in the engineering of the solutions and simulations of complex industrial and real life systems.

Articles describing carefully tested computational techniques, including post-processing visualisation, for real life systems are welcome on the basis of the above criteria.

Articles dealing with mathematical models, computational analysis, and computational processes, must be driven by applications with industrial and real life relevance and are judged on the basis of the above criteria.

Longer papers which survey recent progress in the field of computational technology and algorithms are also published.

Articles dealing with numerical analysis or mathematical analysis alone will not be accepted.

The journal will be published quarterly. The first issue will appear in Spring 2007.

Call for papers

Manuscripts for the founding issue and further issues should be sent as a single pdf file to the editor, C.H.Lai@gre.ac.uk, for review. Instructions to authors may be found in www.multi-science.co.uk/gen_authors.htm

Subscription form and a pdf leaflet are temporary located in 
http://cms-stu-iis.gre.ac.uk/lc01/editorial_office/jact/JACTleaflet-170206.pdf

• 摘要

五邑大学应用数学学科是校十个重点学科之一。本学科现有教授7人，副教授6人，其中博士2人，是一支知识结构、年龄结构、学术梯队均合理的学术队伍。她依托数学教育和信息与计算科学两个本科专业方向和应用数学硕士点，同时依托应用数学研究所、软件研究所，在学校的强有力支持下，该学科近年来，科研成果丰硕、教学成果突出，近年来，学科成员主持国家自然科学基金项目5项，参加国家自然科学基金项目9项，主持省部级基金项目10多项，出版学术专著与教材12部，在核心以上刊物发表学术论文180多篇，其中SCI、EI、ISTP收录40多篇。获国家级与省部级奖励 8项。

应用数学学科已经形成了三个稳定、各具特色的研究方向。

一）以白世忠教授（学科负责人）、谢祥云教授（系主任）为代表的研究方向：不确定性数学理论及其应用。本研究方向主要从不确定性数学之模糊拓扑，半群中的模糊理论，粗糙集理论，随机数学及其它们的应用开展研究。为理论计算机、模糊推理、模糊决策，模式识别和编码理论等方面提供理论基础。本研究方向在模糊拓扑，半群中的模糊理论等方面基本形成了自己的研究特色，做出了一些有影响的研究成果。
二）以陈世权教授、赵耀庆教授、谢祥云教授为代表的研究方向：
计算智能的理论与应用研究。本研究方向以数学为基础，结合信息处理技术、计算机技术与认识科学，主要开展计算智能的理论与应用研究。理论研究：着重研究认知信息处理的理论与方法，特别是模糊信息的认知结构及其处理方法。在国内外，首先提出了模糊信息的认知结构等理论，引起国内外学者的关注。应用研究：主要将计算智能应用于故障诊断与管理科学。在国内外，率先提出了智能诊断的概念与方法，建立了智能化诊断方法、管理方法，具有显著特色。

三）以谭海鸥教授、钱能生教授、梁浩云教授为代表的研究方向：

算子理论及其应用。本方向将以Hilbert空间上的算子理论为基础，在进一步扩展和深入分析复合算子理论的前提下，重点研究算子理论在Toeplitz算子、Hankel算子等积分算子在Bergman空间、Hardy空间、BOM空间及其若干子空间上的影响与作用，从而进一步探讨各类复函数空间的结构、性质及相互联系；非线性、弹性、弹塑性理论变分问题中的各类非齐次及非线性算子的性质及其在求解中的应用；非线性算子的不动点定理及其在Banach 空间的非线性微分方程和积分方程中的应用。

网址: http://math.wyu.edu.cn/

• 摘要

Communications in Computational Physics
http://www.global-sci.com
http://www.global-sci.com/issue/contents/

Volume 1, Number 2

Published in April 2006

Review Article:

Bram van Leer

Upwind and High-Resolution Methods for Compressible Flow: From Donor Cell to Residual-Distribution Schemes.
Commun. Comput. Phys., 1 (2006), pp. 192-206.

Regular Articles:

T. Y. Hou, V. G. Stredie and T. Y. Wu

A 3D Numerical Method for Studying Vortex Formation Behind a Moving Plate.
Commun. Comput. Phys., 1 (2006), pp. 207-228.

Tiejun Yu and Wei Cai

FIFA -- Fast Interpolation and Filtering Algorithm for Calculating Dyadic
Green's Function in the Electromagnetic Scattering of Multi-Layered Structures.
Commun. Comput. Phys., 1 (2006), pp. 229-260.

Takayuki Utsumi, Takayuki Aoki, James Koga and Mitsuru Yamagiwa

Solutions of the 1D Coupled Nonlinear Schrodinger Equations by the CIP-BS Method.
Commun. Comput. Phys., 1 (2006), pp. 261-275.

Weizhang Huang

Mathematical Principles of Anisotropic Mesh Adaptation.
Commun. Comput. Phys., 1 (2006), pp. 276-310.

Youichi Ogata, Takashi Yabe and Kouichi Odagaki

An Accurate Numerical Scheme for Maxwell Equation with CIP-Method of Characteristics.
Commun. Comput. Phys., 1 (2006), pp. 311-335.

Bu-Yang Li, Nan-Sheng Liu and Xi-Yun Lu

Direct Numerical Simulation of Vertical Rotating Turbulent Open-Channel Flow with Heat Transfer.
Commun. Comput. Phys., 1 (2006), pp. 336-361.

H. T. Banks, K. Ito and J. Toivanen

Determination of Interrogating Frequencies to Maximize Electromagnetic Backscatter from Objects with Material Coatings.
Commun. Comput. Phys., 1 (2006), pp. 362-382.

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End of CAM Digest
本期到此结束