Calendar

Feb
10
Mon
Colloquium: Sui Tang (Johns Hopkins University)
Feb 10 @ 3:30 pm – 4:30 pm

Sui Tang (Johns Hopkins University)

Title: Machine learning on dynamic data

Abstract: High-dimensional dynamical data arise in many fields of modern science and introduce new challenges in statistical learning and data recovery. In this talk, I will present two sets of problems. One is related to the data-driven discovery of dynamics in systems of interacting agents. Such kind of systems is ubiquitous in science, from the modeling of particles in physics to prey-predator in Biology, to opinion dynamics in social sciences. Given only observed trajectories of the system, we are interested in estimating the interaction laws between the agents using tools from statistical/machine learning. We show that at least in particular circumstances, where the interactions are governed by (unknown) functions of distances, the high-dimensionality of the state space of the system does not affect the learning rates. We can achieve an optimal learning rate for the interaction kernel, equal to that of a one-dimensional regression problem. The other one is related to the dynamical sampling: a new area in sampling theory that deals with processing a linear time series of evolving signals and aims at recovering the initial state and the forward operator from its coarsely sampled evolving states. We provide mathematical theories to show how the dynamics can inform feasible space-time sampling locations and the fundamental limit of space-time trade-off.

Feb
14
Fri
Colloquium: Farzana Nasrin (U. Tennessee)
Feb 14 @ 3:30 pm – 4:30 pm


Speaker: Farzana Nasrin (U. Tennessee)

Title: Bayesian Topological Learning for Complex Data Analysis

 

Abstract: Classification is an important problem with multiple applications from materials science, and chemistry to biology and neuroscience. In this talk, we will approach the problem of classification by focusing on the shape of data and summarizing it with topological descriptors called persistence diagrams. Viewing persistence diagrams through the lenses of point processes, one could define a pertinent probabilistic framework and potentially quantify the uncertainty present in these summaries. Taking into account this framework and historical data, we will present a novel generalized Bayesian framework for persistent homology, which provides an effective, flexible and noise-resilient scheme to analyze and classify complex datasets. A closed form solution of the posterior distributions of persistence diagrams based on a family of conjugate priors will be provided, and Bayes factors on the space of persistence diagrams will be computed to yield robust classification results. An example of classifying high entropy alloy materials will demonstrate the applicability of this novel Bayesian classifier.

Feb
19
Wed
Colloquium: Jeremy Hoskins (Yale U.) @ Keller 401
Feb 19 @ 3:30 pm – 4:30 pm

Speaker: Jeremy Hoskins (Yale U)

Title: Elliptic PDEs on regions with corners

Abstract: Many of the boundary value problems frequently encountered in the simulation of physical problems (electrostatics, wave propagation, fluid dynamics in small devices, etc.) can be solved by reformulating them as boundary integral equations. This approach reduces the dimensionality of the problem, and enables high-order accuracy in complicated geometries. Unfortunately, in domains with sharp corners the solution to both the original governing equations as well as the corresponding boundary integral equations develop singularities at the corners. This poses significant challenges to many existing integral equation methods, typically requiring the introduction of many additional degrees of freedom. In this talk I show that the solutions to the Laplace, Helmholtz, and biharmonic equations in the vicinity of corners can be represented by a series of elementary functions. Knowledge of these representations can be leveraged to construct accurate and efficient Nyström discretizations for solving the resulting integral equations.The performance of these methods will be illustrated with several numerical examples.

Feb
20
Thu
Colloquium: Tingran Gao (U. Chicago) @ Keller 401
Feb 20 @ 3:00 pm – 4:00 pm


Speaker: Tingran Gao (U. Chicago)
Title: Manifold Learning on Fibre Bundles

Abstract:

Spectral geometry has played an important role in modern geometric data analysis, where the technique is widely known as Laplacian eigenmaps or diffusion maps.

In this talk, we present a geometric framework that studies graph representations of complex datasets, where each edge of the graph is equipped with a non-scalar transformation or correspondence.

This new framework models such a dataset as a fibre bundle with a connection, and interprets the collection of pairwise functional relations as defining a horizontal diffusion process on the bundle driven by its projection on the base.

The eigenstates of this horizontal diffusion process encode the “consistency” among objects in the dataset, and provide a lens through which the geometry of the dataset can be revealed. We demonstrate an application of this geometric framework on evolutionary anthropology.

Feb
21
Fri
Colloquium: Max Alekseyev (George Washington U) @ Keller 401
Feb 21 @ 3:30 pm – 4:00 pm


SPEAKER: Max Alekseyev (George Washington U)
TITLE:
Transfer-Matrix Method as a Combinatorial Hammer:
Enumeration of Silent Circles, Graph Cycles, and Seating Arrangements

ABSTRACT:
I will discuss application of the transfer-matrix method to a variety
of enumeration problems concerning the party game “silent circles”,
Hamiltonian cycles in the antiprism graphs, simple paths/cycles in
arbitrary graphs, and generalized menage problem. While this method
does not always lead to nice formulas, it often provides an efficient
way of computing the corresponding quantities.

BIO:
Max Alekseyev is an Associate Professor of Mathematics and
Computational Biology at the George Washington University. He holds
M.S. in mathematics (1999) and Ph.D. in computer science (2007), and
is a recipient of the NSF CAREER award (2013) and the John Riordan
prize (2015). Dr. Alekseyev’s research interests range from discrete
mathematics (particularly, combinatorics and graph theory) to
computational biology (particularly, comparative genomics and genome
assembly). He is an Editor-in-Chief of the Online Encyclopedia of
Integer Sequences (http://oeis.org).

Mar
6
Fri
ISITA talk
Mar 6 @ 1:30 pm – Mar 6 @ 2:30 pm

The ISITA 2020 conference on coding and information theory
will be held at Ko Olina on October 24-27, 2020.
     http://www.isita.ieice.org/
The organizers are meeting in Hawaii this week, and have
agreed to give two talks at UH:

   Friday, March 6, 1:30pm–2:15pm in Keller Hall 413
   Speaker: Prof. Akiko Manada
   Shonan Institute of Technology

   Monday, March 9, 1:30pm–2:15pm in Keller Hall 413
   Speaker: Prof. Takayuki Nozaki
   Department of Informatics,
   Yamaguchi University

Each talk will be followed by refreshments and a problem
session. You are cordially invited to attend.

Mar
9
Mon
ISITA talk
Mar 9 @ 1:30 pm – Mar 9 @ 2:30 pm

The ISITA 2020 conference on coding and information theory
will be held at Ko Olina on October 24-27, 2020.
     http://www.isita.ieice.org/
The organizers are meeting in Hawaii this week, and have
agreed to give two talks at UH:

   Friday, March 6, 1:30pm–2:15pm in Keller Hall 413
   Speaker: Prof. Akiko Manada
   Shonan Institute of Technology

   Monday, March 9, 1:30pm–2:15pm in Keller Hall 413
   Speaker: Prof. Takayuki Nozaki
   Department of Informatics,
   Yamaguchi University

Each talk will be followed by refreshments and a problem
session. You are cordially invited to attend.

Mar
13
Fri
Logic seminar: Jack Yoon
Mar 13 @ 2:30 pm – 3:30 pm