Browsing by Author "Baudier, Florent"

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    Research Project
    Banach Spaces and Graphs: Geometric Interactions and Applications
    Mathematics; TAMU; https://hdl.handle.net/20.500.14641/321; National Science Foundation
    It can arguably be said that the world one lives in is geometric in nature. Numerous practical everyday-life issues, as well as fundamental scientific mysteries, can be expressed in geometric terms. For instance, networks are ubiquitous in our modern society. From the World Wide Web and its powerful search engines to social networks, from telecommunication networks to economic systems, networks represent a wide range of real world systems. They can naturally be seen as geometric objects by considering the number of edges of the shortest path connecting two nodes as a quantity measuring their proximity. The study of physical laws has led as well to the development of a refined mathematical framework where elaborate geometric structures are able to depict and model the interactions of elementary particles and the symmetries underlying quantum physics. The notion of a metric space is a central concept that is pivotal in mathematical models of optimization problems in networks, and in a vast range of application areas, including computer vision, computational biology, machine learning, statistics, and mathematical psychology, to name a few. This extremely useful abstract concept generalizes the classical notion of an Euclidean space, where the distance from point A to point B is computed as the length of an imaginary straight line connecting them. The heart of the matter usually boils down to understanding whether a given metric space, in particular a graph equipped with its shortest path distance, can be faithfully represented in a more structured space, typically a Banach space with some desirable properties. Our ability to do so usually has tremendous applications. The problems investigated in this project are motivated by their potential applications in theoretical physics and theoretical computer science. Most of the problems considered find their origins either in practical issues (e.g. the design of efficient approximation algorithms), or in fundamental mathematical problems in topology or noncommutative geometry (e.g. the Novikov conjecture(s), the Baum-Connes conjecture(s)). Embedding problems that arise in connection to these problems have been considered independently by several groups of mathematicians (Banach space geometers, geometric group theorists, computer scientists...). An underlined aspect of this proposal is to consider these embeddings problems from a unified and global standpoint. Fundamental and long-standing open problems in quantitative metric geometry (e.g. Enflo's problem, a metric reformulation of uniform smoothability, the coarse embeddability of groups and expander graphs into super-reflexive Banach spaces...) will be tackled from a different angle with new and innovative techniques. In particular, the project will develop a certain asymptotic theory of Banach spaces and explore its connections to the geometry of infinite graphs. The approach here to solve the local problems above, is to study asymptotic counterparts of the local properties involved, in order to gain new insights and to devise new approaches. This approach is motivated by the fact that the asymptotic setting usually provides a finer picture, is on some occasion better understood, and requires completely different techniques. A general outline of the research methodology of this project is to utilize powerful tools from surrounding fields (graph theory, probability theory, Ramsey theory...), and cross-over techniques (e.g. techniques from theoretical computer science to solve geometric group theoretic problems). This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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    Research Project
    Workshop in Analysis and Probability
    Mathematics; TAMU; https://hdl.handle.net/20.500.14641/321; National Science Foundation
    The 2018 Workshop in Analysis and Probability, to be held at Texas A&M University from July 2 to August 19, 2018, will bring together senior and junior researchers and advanced graduate students in analysis and probability and related fields in order to broaden the education of the younger participants and to promote interaction among researchers working in different areas. It will provide support to many researchers not on sponsored research grants who will benefit from being in an environment that is research friendly and from contact with participants who are leaders in the field. An emphasis is put on the support of junior researchers, minorities, women, and graduate students. The main session of the Workshop will take place during the period from July 2 to August 19.Activities sponsored by the Workshop include the three-day general conference SUMIRFAS (Informal Regional Functional Analysis Seminar)to be held from August 17 to 19, the Concentration Week "Noncommutative Geometry and Index Theory for Group Actions and Singular Spaces" to be held from May 21 to 25, and the Concentration Week "Random Walks in Correlated and Dynamic Environments" to be held from August 13 to 17. The Workshop activities have a wide impact by providing intellectual stimulation for all participants as well as giving an opportunity to a diverse group of junior participants to increase the breadth and depth of knowledge and to interact with senior researchers in several areas of mathematics. There is also significant outreach to applied mathematics and computer science, and indeed an important aspect of the Workshop is to promote cooperation among researchers in different fields. The Concentration Weeks will include introductory lecture series designed to acquaint junior researchers and non-experts with the basics of an area. All Workshop participants will be invited to disseminate their work through seminars. More details are available at http://www.math.tamu.edu/~kerr/workshop/ This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.