2021年数学展望论坛日程安排
时间:12月4号
线下地点:必赢线路检测3003no1犀浦校区3号教学楼X30456
腾讯会议ID:652368231
8:30-8:40 |
杨晗经理致开幕词 |
主持 |
陈树伟 |
8:40-9:20 |
Geoff Sutcliffe(美国迈阿密大学) |
Visions of Automated Reasoning |
主持 |
黄磊 |
9:20-10:00 |
王学钦(中国科学技术大学) |
Metric distribution function |
主持 |
周正春 |
10:00-10:40 |
季利均(苏州大学) |
Abelian Group-invariant Steiner Quadruple Systems |
10:40-10:50 |
休息 |
主持 |
杨晗 |
10:50-11:30 |
徐润章(哈尔滨工程大学) |
Global well-posedness of coupled parabolic systems |
主持 |
崔宁伟 |
11:30-12:10 |
赵唯(华东理工大学) |
On the geometry of irreversible metric spaces |
题目:Visions of Automated Reasoning
报告人:Geoff Sutcliffe 美国迈阿密大学
摘要:This talk celebrates the scientific discoveries and the service to the automated reasoning community of Lawrence (Larry) T. Wos, who passed away in August 2020. The talk covers Larry's most long-lasting ideasabout inference rules and search strategies for theorem proving, his work
on applications of theorem proving, and a collection of personal
memories and anecdotes that let us appreciate Larry's personality and
enthusiasm for automated reasoning.
个人简介:Geoff Sutcliffe is a Chair Professor of the Department of Computer Science at the University of Miami. He received a BSc(Hons) and MScfrom the University of Natal, and a PhD in Computer Science from the University of Western Australia. His research is in the area of Automated
Reasoning, particularly in the evaluation and effective use of automated reasoning systems. His most prominent achievements are: the first ever development of a heterogeneous parallel deduction system, leading to the development of the SSCPA automated reasoning system; the development and ongoing maintenance of the TPTP problem library, which is now the de
facto standard for testing classical logic automated reasoning systems;
the development and ongoing organization of the CADE ATP System
Competition - the world championship for classical logic automated
reasoning systems; and the specification of the TPTP language standards for automated reasoning tools. The research has been supported by grants from the National Science Foundation, the German Ministry for Research, the Australian Research Council, the European Union, and so on. The
research has produced over 130 refereed journal, conference,and workshop papers. He is an editor of Acta Informatica and the Formalised
Mathematics journal, and has been guest editor of several special
journal issues on topics in automated reasoning. He has contributed to
the automated reasoning and artificial intelligence communities as a
conference or program chair of (several instances of) the International Conference on Automated Deduction (CADE), the International Conference
on Logic for Programming Artificial Intelligence and Reasoning (LPAR),
and the International Florida Artificial Intelligence Research
Society (FLAIRS).
题目:Metric distribution function
报告人:王学钦 中国科学技术大学
摘要:Statistical inference aims to use observed samples to learn the
unknown properties of a population. It has become an integral step in
scientific reasoning. A building block of nonparametric statistical
inference is distribution function. The distribution function and
samples are connected to form a directed closed loop by the
correspondence theorem in measure theory and the Glivenko-Cantelli and
Donsker properties in statistics, and this connection creates a paradigm for statistical inference. However, existing distribution functions are defined in Euclidean spaces. Those distribution functions are no longer convenient to use or applicable in characterizing the rapidly evolving data objects of complex nature. Thus, it is imperative to develop the
concept of the distribution function in a more general space to meet
emerging needs. Note that the linearity allows us to use hypercubes to
define the distribution function in a Euclidean space, but without the
linearity in a metric space, we must work with the metric to investigate the probability measure. We introduce a class of novel quasi-distribution functions, or metric distribution functions, for metric space-valued random objects. We investigate the randomness of the data by the
distribution of metric between random object and a fixed location.
Working with the distribution of the metric in defining a probability
measure is particularly challenging. We overcome this challenge to prove the correspondence theorem and the Glivenko-Cantelli theorem for metric distribution functions in metric spaces that lie the foundation for
conducting rational statistical inference for metric space-valued data. Based on metric distribution function, we develop statistical methods
for homogeneity test, mutual independence test, and hierarchical
clustering for non-Euclidean random objects, and present comprehensive
empirical evidence to support the performance of our proposed methods.
个人简介:王学钦,中国科学技术大学管理学院教授。2003年毕业于纽约州立大学宾汉姆顿分校。他现担任教育部高等学校统计学类专业教学指导委员会委员、统计学国际期刊《JASA》等的Associate Editor、高等教育出版社《Lecture Notes: Data Science, Statistics and Probability》系列丛书的副主编。
题目:Abelian Group-invariant Steiner Quadruple Systems
报告人:季利均 苏州大学
摘要:Let $K$ be an abelian group of order $v$. A Steiner quadruple system of order $v$ (SQS$(v)$) $(K,\B)$ is called symmetric $K$-invariant if for each $B\in \B$, it holds that $B+x\in \B$ for each $x\in K$ and $B=-B+y$ for some $y\in K$. In this talk, we present that a symmetric $K$-invariant SQS$(v)$ exists if and only if $v\equiv 2,4 \pmod 6$, the order of each element of $K$ is not divisible by $8$ and there exists a symmetric cyclic SQS$(2p)$ for any odd prime divisor $p$ of $v$.
个人简介:苏州大学数学科学学院教授,主要研究领域为组合设计与组合编码。2015年获国际组合数学与应用学会(ICA)颁发的Hall奖,曾获批“国家基金委优秀青年科学基金”。
题目:Global well-posedness of coupled parabolic systems
报告人:徐润章 哈尔滨工程大学
摘要:The initial boundary value problem of a class of reaction-diffusion systems (coupled parabolic systems) with nonlinear coupled source terms is considered in order to classify the initial data for the global existence, finite time blowup and longtime decay of the solution. The whole study is conducted by considering three cases according to initial energy: low initial energy case, critical initial energy case and high initial energy case. For the low initial energy case and critical initial energy case the sufficient initial conditions of global existence, long time decay and finite time blowup are given to show a sharp-like condition. And for the high initial energy case the possibility of both global existence and finite time blowup is proved first, and then some sufficient initial conditions of finite time blowup and global existence are obtained respectively.
个人简介:哈尔滨工程大学数学科学学院教授,博士生导师,“龙江学者”青年学者,黑龙江省数学会常务理事,黑龙江省青年学术骨干。《哈尔滨工程大学学报》编委, Advances in Nonlinear Analysis 主编, Applied Numerical Mathematics编委, Boundary Value Problems 副主编; Electronic Research Archive (ERA), formally known as Electronic Research Announcements in Mathematical Sciences 编委;The Annals of the University of Craiova - Mathematics and Computer Science series 编委,Opuscula Mathematica编委,《中国工业与应用数学会简讯》编委。 The 10th-13th IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory 学术委员会委员(Scientific Program Committee);第十四届-第十九届,非线性偏微分方程暑期讲习班暨学术会议组织 委员会委员;12th-13th Conference of the Euro-American Consortium for Promoting the Application of Mathematics in Technical and Natural Sciences 组织委员会委员。
题目:On the geometry of irreversible metric spaces
报告人:赵唯, 华东理工大学
摘要:In this talk, I will introduce the recent work joint with A. Kristaly concerned about the study of Gromov-Hausdorff convergence and stability of irreversible metric-measure spaces, both in the compact and noncompact cases. While the compact setting is mostly similar to the reversible case developed by J. Lott, K.-T. Sturm and C. Villani, the noncompact case provides various surprising phenomena. Since the reversibility of noncompact irreversible spaces might be infinite, it is motivated to introduce a suitable nondecreasing function that bounds the reversibility of larger and larger balls. By this approach, we are able to prove satisfactory convergence/stability results in a suitable -- reversibility depending -- Gromov-Hausdorff topology. A wide class of irreversible spaces is provided by Finsler manifolds, which serve to construct various model examples by pointing out genuine differences between the reversible and irreversible settings.
个人简介:赵唯, 华东理工大学必赢bwin线路检测中心副教授, 主要研究Riemann-Finsler几何和度量几何,相关工作发表在《Journal de Mathématiques Pures et Appliquées》、《Transactions of the American Mathematical Society》、《Mathematische Zeitshrift》、《Canadian Journal of Mathematics》、《Journal of Geometric Analysis》等国际权威期刊上。