Department of Mathematics
Applied Mathematics Seminar, Spring 2017

Mondays 4:00 PM - 5:00 PM, LCB 222




January 9. Special Applied Math Seminar.
Speaker: Ricardo Alonso, Department of Mathematics, PUC-Rio
Title: The 1-D dissipative Boltzmann equation
Abstract: We discuss elementary properties of the 1-D dissipative Boltzmann equation. In particular, we show the optimal cooling rate of the model, give existence and uniqueness of measure solutions, and prove the existence of a non-trivial self-similar profile.

January 13 (Friday). Special Applied Math/Statistics/Stochastics Seminar
Note Time, 4:15pm - 5:15pm and Place LCB 222.

Speaker: Dane Taylor,Department of Mathematics, University of North Carolina-Chapel Hill
Title: Optimal layer aggregation and enhanced community detection in multilayer networks
Abstract: Inspired by real-world networks consisting of layers that encode different types of connections, such as a social network at different instances in time, we study community structure in multilayer networks. We study fundamental limitations on the detectability of communities by developing random matrix theory for the dominant eigenvectors of matrices that encode random networks. Specifically, we study modularity matrices that are associated an aggregation of network layers. Layer aggregation can be beneficial when the layers are correlated, and it represents a crucial step for discretizing time-varying networks (whereby time layers are binned into time windows). We explore two methods for layer aggregation: summing the layers' adjacency matrices and thresholding this summation at some value. We identify layer-aggregation strategies that minimize the detectability limit, indicating good practices (in the context of community detection) for how to aggregate layers, discretize temporal networks, and threshold pairwise-interaction data matrices.

January 18 (Wednesday). Special Applied Math/Statistics/Stochastics Seminar.
Note Time, Wednesday 4pm and Place JWB 335.

Speaker: Wenjing Liao, Department of Mathematics, Johns Hopkins University
Title: Multiscale adaptive approximations to data and functions near low-dimensional sets
Abstract: High-dimensional data are often modeled as samples from a probability measure in $R^D$, for $D$ large. We study data sets exhibiting a low-dimensional structure, for example, a $d$-dimensional manifold, with $d$ much smaller than $D$. In this setting, I will present two sets of problems: low-dimensional geometric approximation to the manifold and regression of a function on the manifold. In the first case we construct multiscale low-dimensional empirical approximations to the manifold and give finite-sample performance guarantees. In the second case we exploit these empirical geometric approximations of the manifold to construct multiscale approximations to the function. We prove finite-sample guarantees showing that we attain the same learning rates as if the function was defined on a Euclidean domain of dimension $d$. In both cases our approximations can adapt to the regularity of the manifold or the function eve when this varies at different scales or locations. All algorithms have complexity $C n\log (n)$ where $n$ is the number of samples, and the constant $C$ is linear in $D$ and exponential in $d$.

January 30. Special Applied Math Seminar.
Speaker: Michele Coti Zelati, Department of Mathematics, University of Maryland College Park
Title: Stochastic perturbations of passive scalars and small noise inviscid limits
Abstract: We consider a class of invariant measures for a passive scalar driven by an incompressible velocity field on a periodic domain. The measures are obtained as limits of stochastic viscous perturbations. We prove that the span of the H1 eigenfunctions of the transport operator contains the support of these measures, and apply the result to a number of examples in which explicit computations are possible (relaxation enhancing, shear, cellular flows). In the case of shear flows, anomalous scalings can be handled in view of a precise quantification of the enhanced dissipation effects due to the flow.

February 24 (Friday)
Speaker: Gunilla Kreiss, Department of Information Technology, Uppsala University
Title: TBA
Abstract: TBA

March 20
Speaker: Saverio Spagnolie, Department of Mathematics, University of Wisconsin-Madison
Title: TBA
Abstract: TBA

March 22 (Wednesday).
Note Time, Wednesday 1pm - 2pm and Place JFB B-1.

Speaker: Nick Trefethen, Department of Mathematics, University of Oxford
Title: TBA
Abstract: TBA

May 15
Speaker: Dmitriy Leykekhman, Department of Mathematics, University of Connecticut
Title: TBA
Abstract: TBA


Seminar organizer: Yekaterina Epshteyn (epshteyn (at) math.utah.edu).

Past lectures: Fall 2016, Spring 2016, Fall 2015, Spring 2015, Fall 2014, Spring 2014, Fall 2013, Spring 2013, Fall 2012, Spring 2012, Fall 2011, Spring 2011, Fall 2010, Spring 2010, Fall 2009, Spring 2009, Fall 2008, Spring 2008, Fall 2007, Spring 2007, Fall 2006, Spring 2006, Fall 2005, Spring 2005, Fall 2004, Spring 2004, Fall 2003, Spring 2003, Fall 2002, Spring 2002, Fall 2001, Spring 2001, Fall 2000, Spring 2000, Fall 1999, Spring 1999, Fall 1998, Spring 1998, Winter 1998, Fall 1997, Spring 1997, Winter 1997, Fall 1996, Spring 1996, Winter 1996, Fall 1995.


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