JAMS Student Seminar Archives for Fall 2023 to Spring 2024
What are... Oceanic Internal Waves
When: Wed, September 6, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Victoria Whitley (AMSC - UMD) -
Abstract: Internal waves are suspected to have a crucial role in everything from the global overturning circulation to the growth of bacteria on the coast, yet they are almost undetectable from the surface. While there are several pathways to the generation and break-down of these waves in the ocean, there are still many unknowns within these processes. The reflection or breaking of internal waves is one such area of ongoing research. By considering the Navier-Stokes equations, we can understand the general attributes of these waves and ultimately study the linear (and nonlinear!) behavior of reflected internal waves off sloping boundaries.
What is… $\Gamma$-convergence?
When: Wed, September 13, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Michael Rozowski (UMD) -
Abstract: $\Gamma$-convergence is a mode of convergence introduced by De Giorgi in the 1970s relevant when studying sequences of minimization problems. Its importance is described by the “Fundamental Theorem of $\Gamma$-convergence,” which says that minimizers of a sequence of $\Gamma$-convergent functionals will converge to a minimizer of the $\Gamma$-limit functional. We will describe its basic properties in the setting of functions on metric spaces, and we will compare with more elementary notions of convergence for functions, e.g., pointwise and uniform. Through examples, we will show that these elementary modes of convergence are not useful when studying sequences of minimization problems.
Then we will informally peruse many applications of $\Gamma$-convergence, including the Modica-Mortola regularization of the perimeter functional, discrete-to-continuous limits appearing in modeling and numerical analysis, and the rigorous derivation of lower-dimensional models from higher-dimensional models.
What is the Walk-on-Spheres Method?
When: Wed, September 27, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Ryan Synk (UMD CS) - https://ryansynk.github.io/
Abstract: The walk-on-spheres (WoS) method is a monte-carlo technique for solving PDEs. First developed by Muller in 1956, it has seen a recent resurgence in computer graphics as it allows for problems to be solved on complicated geometries without the need for meshing. The main theoretical tool behind WoS relies on the stochastic process interpretation of solutions of boundary value problems. In this talk, the basics of the walk-on-spheres method will be discussed, its advantages & disadvantages, as well as some applications.
What is ... an exotic sphere?
When: Wed, October 4, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Keith Mills (UMD) - https://sites.google.com/umd.edu/kmills/home
What is…a frame?
When: Wed, October 11, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Shashank Sule (UMD) -
Abstract: Frames are simple linear algebraic objects possessing elegant geometric and combinatorial properties with far reaching applications to signal processing, quantum information, and deep learning. Come find out more in this introductory talk!
What is ... a viscosity solution?
When: Wed, October 18, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Vasanth Pidaparthy (UMD) -
What is ... a zeta function?
When: Wed, October 25, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Shin Eui Song (UMD) - https://www.math.umd.edu/~sesong/
What is ... fluid turbulence?
When: Wed, November 1, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Ethan Dudley (UMD) -
What is.. A Large Cardinal?
When: Wed, November 15, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Connor Lockhart (UMD) -
What is ... an invariant ergodic measure?
When: Wed, November 29, 2023 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Max Auer (UMD) -
Organizational Meeting
When: Wed, February 7, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: () -
What is... metric-conforming structured grid adaptation?
When: Wed, February 14, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Harrison Bauman (UMD) -
What is ... a scattering transform?
When: Wed, February 21, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Brandon Kolstoe (UMD) -
Abstract: While convolutional neural networks (CNNs) are a very powerful tool, studying them from a mathematical perspective is difficult due in part to their black-box structure. In this talk, the general scattering transform will be introduced as a mathematical model for CNNs, and we will discuss its basic properties. Then, we shall discuss two specific constructions, namely the wavelet and Fourier scattering transforms, and see how additional structure allows us to prove even stronger statements. Finally, we shall see an application of the scattering transform to hyperspectral image reconstruction.
What is ... a Topos?
When: Wed, March 6, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Nicholas Hiebert-White (UMD) -
What is ... an integrable system?
When: Wed, March 27, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Sze-Hong Kwong (University of Maryland, College Park) -
What is an analytic proof of Brouwer’s Fixed Point Theorem?
When: Wed, April 3, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Ben Goldschlager (UMD) -
Inference of malignant cell interactions in liver cancer through single cell analysis
When: Wed, April 17, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Dmitrii Gudin (UMD) -
What is... RNA-seq analysis?
When: Wed, May 1, 2024 - 4:00pmWhere: Kirwan Hall 1311
Speaker: Dmitrii Gudin (UMD) -
Abstract: Liver cancer is one of the deadliest malignancies in the world, its treatment complicated by the difficulty of early diagnosis. Recent advances in single-cell RNA sequencing (scRNA-seq) allowed study of the cancerous cells on the individual cell level. One of the main findings of this approach was the strong association between the malignant cell heterogeneity and negative health outcomes. In this study we used the scRNA-seq sample of 47 liver cancer patients to quantify the heterogeneity by analyzing the gene interactions between cells. We identified 6 malignant cell populations and gained insight into their contribution to cancer-associated biological processes.