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Thursday, November 30, 2023 2:00 pm - 2:00 pm EST (GMT -05:00)

Algebraic and Enumerative Combinatorics Seminar - Kelvin Chan

Title: Polarization operators in superspace

Speaker: Kelvin Chan
Affiliation: York University
Location: MC 6029

There will be a pre-seminar presenting relevant background at the beginning graduate level starting at 1:00 pm.

Abstract: The classic coinvariant space is a graded representation of the symmetric group with deep connections to permutation statistics and Hall-Littlewood polynomials. Its generalization, the diagonal harmonics, has a rich connection to Macdonald polynomials and the q,t-Catalan numbers. In this talk, we consider the variant of the classical coinvariant story in the superspace. We briefly survey its connections and recent developments. We introduce polarization operators and discuss a new basis for its alternating component. We also discuss a folklore on cocharge and propose a basis for the super harmonics.

Friday, December 1, 2023 1:00 pm - 1:00 pm EST (GMT -05:00)

C&O Reading Group - Nathan Benedetto Proenca

Title: Sublinear Regret 101

Speaker: Nathan Benedetto Proenca
Affiliation: University of Waterloo
Location: MC 6029

Abstract: The purpose of this talk is to look at specific algorithms for online convex optimization attaining sublinear regret. In this way, we can get more familiar with the online learning setup and with the ingredients necessary to attain sublinear regret.

Friday, December 1, 2023 3:30 pm - 3:30 pm EST (GMT -05:00)

Tutte Colloquium - Samuel Jaques

Title: Wires, bits, and the cost of sorting

Speaker: Samuel Jaques
Affiliation: University of Waterloo
Location: MC 5501

Abstract: How hard is it to sort a list of n integers? A basic course on algorithms says it's O(n log n) time, but what if the list is enormous - so big you would need to cover the surface of the moon just to store it?

Monday, December 4, 2023 11:30 am - 11:30 am EST (GMT -05:00)

Algebraic Graph Theory - Peter Dukes

Title:  A threshold for fractional Sudoku completion

Speaker: Peter Dukes
Affiliation: University of Victoria
Location: Please contact Sabrina Lato for Zoom link.

Abstract: The popular puzzle game Sudoku presents a player with a 9-by-9 grid having some numbers filled in a few of the cells.  The player must finish filling in numbers from 1 to 9 so that every row, column, and 3-by-3 box contains each of these numbers exactly once.  We can extend Sudoku so that the boxes are $h$-by-$w$, and the overall array is $n$-by-$n$, where $n=hw$.  The puzzle is now similar to completing a latin square of order n, except of course that Sudoku has an additional box condition.

Thursday, December 7, 2023 3:00 pm - 3:00 pm EST (GMT -05:00)

Graphs and Matroids Seminar - Amitha Vallapuram

Title: The Container method for Enumerating Triangle-free graphs

Speaker: Amitha Vallapuram
Affiliation: University of Waterloo
Location: MC 5417

Abstract: The container method is a tool for bounding the number of independent sets in graphs and can be generalized to hypergraphs. It utilizes the observation that independent sets are found in clusters or “containers” within the graph. One application of this method is to bound the number of finite objects with some forbidden substructure. For example, we can bound the number of graphs on N vertices that do not contain K3 as a subgraph, that is, the number of Triangle-free graphs on N vertices. We will take a look at finding this bound using the container method.

Friday, December 8, 2023 1:00 pm - 1:00 pm EST (GMT -05:00)

C&O Reading Group - David Wajc

Title: Prophets, philosophers, and online algorithms

Speaker: David Wajc
Affiliation: Technion
Location: MC 6029

Abstract: In online Bayesian selection problems, a seller is faced with a stream of buyers arriving sequentially. Each arriving buyer makes, for each item on sale, a take-it-or-leave-it offer drawn from some known distribution, which the seller must immediately either accept or decline. It is common to compare the seller's benefit to the optimal offline solution, obtained by a "prophet'' who knows the future. However, the seller might not even be able to compete with the optimal online algorithm, which may be computationally intractable to run. In this case the optimal online algorithm is obtained by a "philosopher'' with sufficient time to think (compute).  In this talk I will discuss some developments on online algorithms efficiently approximating this philosopher.

Friday, December 8, 2023 3:30 pm - 3:30 pm EST (GMT -05:00)

Tutte Colloquium - Amena Assem Abd-AlQader Mahmoud

Title: Nash-Williams Orientation for Infinite Graphs

Speaker: Amena Assem Abd-AlQader Mahmoud
Affiliation: University of Waterloo
Location: MC 5501

Abstract: Nash-Williams proved in 1960 that an edge-connectivity of 2k is sufficient for a finite graph to admit a k-arc-connected orientation and conjectured that the same holds for infinite graphs. We show that the conjecture is true for locally finite graphs with countably many ends.

This is joint work with Max Pitz and Marcel Koloschin.

Friday, December 15, 2023 3:30 pm - 3:30 pm EST (GMT -05:00)

Tutte Colloquium - David Wajc

Title: Online edge colouring

Speaker: David Wajc
Affiliation: Technion — Israel Institute of Technology
Location: MC 5501

Abstract: Vizing's Theorem provides an algorithm that edge colors any graph of maximum degree Δ can be edge-colored using Δ+1 colors, which is necessary for some graphs, and at most one higher than necessary for any graph. In online settings, the trivial greedy algorithm requires 2Δ-1 colors, and Bar-Noy, Motwani and Naor in the early 90s showed that this is best possible, at least in the low-degree regime.

Monday, January 8, 2024 11:30 am - 12:30 pm EST (GMT -05:00)

Algebraic Graph Theory - Alan Lew

Title: Eigenvalues of high dimensional Laplacian operators

Speaker: Alan Lew
Affiliation: Carnegie Melon University
Location: Please contact Sabrina Lato for Zoom link.

Abstract: A simplicial complex is a topological space built by gluing together simple building blocks (such as vertices, edges, triangles and their higher dimensional counterparts). Alternatively, we can define a simplicial complex combinatorially, as a family of finite sets that is closed under inclusion. In 1944, Eckmann introduced a class of high dimensional Laplacian operators acting on a simplicial complex. These operators generalize the Laplacian matrix of a graph (which can be seen as a 0-dimensional Laplacian), and are strongly related to the topology of the complex (and in particular, to its homology groups).

Monday, January 15, 2024 11:30 am - 12:30 pm EST (GMT -05:00)

Algebraic Graph Theory - Carolyn Reinhart

Title: The non-backtracking matrix

Speaker: Carolyn Reinhart
Affiliation: Swarthmore College
Location: Please contact Sabrina Lato for Zoom link.

Abstract: A non-backtracking walk in a graph is any traversal of the vertices of a graph such that no edge is immediately repeated. The non-backtracking matrix of a graph is indexed by the directed edges of the graph, and encodes if two edges can be traversed in succession. Since this matrix is not symmetric, the question of when the matrix is diagonalizable is of interest to those who study it. Equivalently, such graphs have a non-trivial Jordan block. In this talk, I will present an overview of the non-backtracking matrix, including its history and applications. Finally, I will present recent results about graphs with non-trivial Jordan blocks for the non-backtracking matrix from joint work with Kristin Heysse, Kate Lorenzen, and Xinyu Wu.