Past Probability Seminars Spring 2020

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Spring 2017

Thursdays in 901 Van Vleck Hall at 2:25 PM, unless otherwise noted. We usually end for questions at 3:15 PM.

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Monday, January 9, 4pm, B233 Van Vleck Miklos Racz, Microsoft Research

Please note the unusual day and time

Title: Statistical inference in networks and genomics

Abstract: From networks to genomics, large amounts of data are increasingly available and play critical roles in helping us understand complex systems. Statistical inference is crucial in discovering the underlying structures present in these systems, whether this concerns the time evolution of a network, an underlying geometric structure, or reconstructing a DNA sequence from partial and noisy information. In this talk I will discuss several fundamental detection and estimation problems in these areas.

I will present an overview of recent developments in source detection and estimation in randomly growing graphs. For example, can one detect the influence of the initial seed graph? How good are root-finding algorithms? I will also discuss inference in random geometric graphs: can one detect and estimate an underlying high-dimensional geometric structure? Finally, I will discuss statistical error correction algorithms for DNA sequencing that are motivated by DNA storage, which aims to use synthetic DNA as a high-density, durable, and easy-to-manipulate storage medium of digital data.

Thursday, January 26, Erik Bates, Stanford

Title: The endpoint distribution of directed polymers

Abstract: On the d-dimensional integer lattice, directed polymers are paths of a random walk in random environment, except that the environment updates at each time step. The result is a statistical mechanical system, whose qualitative behavior is governed by a temperature parameter and the law of the environment. Historically, the phase transitions have been best understood by whether or not the path’s endpoint localizes. While the endpoint is no longer a Markov process as in a random walk, its quenched distribution is. The key difficulty is that the space of measures is too large for one to expect convergence results. By adapting methods recently used by Mukherjee and Varadhan, we develop a compactification theory to resolve the issue. In this talk, we will discuss this intriguing abstraction, as well as new concrete theorems it allows us to prove for directed polymers. This talk is based on joint work with Sourav Chatterjee.

Thursday, February 23, Jean-Luc Thiffeault, UW-Madison

Thursday, March 2, Thomas Wooley, Oxford

Thursday, 3/9/2017, TBA

Thursday, March 16, Wei-Kuo Chen, Minnesota

Thursday, March 23, Spring Break

Thursday, 3/30/2017, TBA

Thursday, 4/6/2017, TBA

Thursday, 4/13/2017, TBA

Thursday, 4/20/2017, TBA

Thursday, 4/27/2017, TBA

Thursday, 5/4/2017, TBA

Thursday, 5/11/2017, TBA

Past Seminars