The Department of Mathematics encourages faculty, staff and students to participate and attend conferences and colloquia. For more information, please contact Professor Gabriel Prajitura or Howard Skogman.
Recent & Upcoming Talks
Speaker: Emma Hampston (Brockport UG)
Title: Using Differential Equations to Make a Difference: Prostate Cancer Treatment Modeling
Date/Time: Monday April 25, 1:15 - 2:15
Location: B5 Holmes
Abstract: In this talk, I will discuss the results of my group’s work from a Research Experience for Undergraduates (REU) at Arizona State University. During this experience I worked on a project which involved using differential equations to model prostate cancer treatment. I will also discuss my experience applying to and participating in the REU.
Speakers: Taylor Kremis, Tyler Neilans, and Kelsey Schenkel
Title: Actuarial Career Talk
Date/Time: Wednesday, March 25, 2020, 2:30-3:30
Location: 216 Holmes Hall
Abstract: We invite all interested math majors and faculty to a talk on the actuarial profession led by recent Brockport graduates. In our talk, we will provide insights into finding actuarial internships and jobs, the interview process, resources and tips with passing actuarial exams, and skill sets that will help you stand out to future employers. In addition, we will share our experiences and an overview of our day-to-day responsibilities as actuarial analysts.
About the Speakers:
- Taylor Kremis: Actuarial Analyst, BlueCross BlueShield of Western New York, Buffalo
- Tyler Neilans: Assistant Actuary, New York State Insurance Fund, New York City
- Kelsey Schenkel: Actuarial Analyst, Excellus BCBS, Rochester
Speaker: Howard Skogman
Title: An introduction to theta functions
Date/time: Mon. March 2, 2020 from 2:30 - 3:30
Location: 216 Holmes
Abstract: Theta functions are a family of functions that are usually defined for counting purposes. However they usually have symmetries built into them which can be exploited to solve our counting problems. This will be an introductory talk that does not assume any specialized math from the audience.
Speaker: Gabriel Prajitura
Title: Orthogonality without Inner Products
Date/Time: Wednesday, December 11, 2019, 2:30-3:30 pm
Location: 101 Holmes Hall
Abstract: There is no natural definition of angles without a corresponding inner product, however we can generalize the notion of orthogonality. We investigate some of these generalizations and their properties.
Speaker: Gabriel Prajitura
Title: Orthogonality without Inner Products
Date/Time: Wednesday, December 4, 2019, 2:30-3:30 pm
Location: 101 Holmes Hall
Abstract: There is no natural definition of angles without a corresponding inner product. However, there are ways to generalize the notion of orthogonality. In this talk, we investigate a few of these generalizations.
Speaker: Melissa Dimarco
Title: Finite Generation of Ext-Algebras of Finite Dimensional Algebras
Date/Time: Wednesday, October 9, 2019, 3:15 – 4 pm
Location: 101 Holmes Halls
Abstract: Deep within the mathematical jungle lives the elusive finite-dimensional algebra. This beast is both a ring and a field, so it can confuse even the mightiest of mathematicians. However, it can be tamed with a quiver—a mathematical quiver. These quivers, or directed graphs, allow us to compute new things and prove new theorems. In this talk, we will learn about the Ext-Algebra—what it is, how to think about it, and some of the current research on it. This talk is appropriate for anyone with knowledge of vector spaces, rings, or directed graphs.
Speaker: Dr. Xiaosong Liu (Jiaying University)
Title:Area operators on Hardy space on the unit ball of $\mathbb C^n$
Date/Time: Monday, September 23, 2019, 2:30-3:30 pm
Location: 101 Holmes
Abstract: Let $\mathbb B_n$ and $\mathbb S_n$ be the unit ball and the unit sphere of the $n$-dimensional complex Euclidean space $\mathbb{C}^n$, respectively. For $0<p<\infty$, we say that an analytic function $f$ on $\mathbb B^n$ is in the Hardy space $H^p$, if \[ \|f\|_{H^p}^p=\sup_{0<r<1}\int_{\mathbb{S}_n}|f(r \zeta)|^p d \sigma(\zeta)<\infty, \] where $d\sigma$ is the normalized area measure on $\mathbb S_n$. Let $\mu$ be a non-negative Borel measure on $\mathbb{B}_n$. For $s>0$, the area operator induced by $\mu$ is defined by \[ \mathcal{A}_{\mu,s}(f)(\zeta)=\left(\int_{\Gamma(\zeta)}|f(z)|^s\frac{d\mu(z)}{(1-|z|)^n}\right)^\frac{1}{s}, \qquad\zeta\in \mathbb{S}_n. \] where $\Gamma(\zeta)$ is the admissible approach region in $\mathbb{B}_n$ given by \[ \Gamma(\zeta)=\{z\in\mathbb{B}_n:\, |1-\langle z, \zeta\rangle|<1-|z|^2\}. \] We characterize boundedness and compactness of area operators from $H^p$ into $L^q(\mathbb{S}_n)$ in terms of Carleson measures, where $0<p,q<\infty$. The result generalized the corresponding result by Minqing Gong, Zengjian Lou and Zhijian Wu on the unit disk of the complex plane $\mathbb C$. Some of the tools used in the proof of the one dimensional case are not available in higher dimensions, such as the strong factorization of Hardy spaces. Therefore, we need the theory of tent spaces which was established by Coifman, Mayer and Stein in 1985
Speaker: Dr. Justin Troyka (York University)
Title: Split Graphs: Combinatorial Species and Asymptotics
Date/Time: Monday, May 6, 2019, 3:30 – 4:30 pm
Location: 107 Liberal Arts Building
Abstract: A split graph is a graph whose vertices can be partitioned into a clique (complete graph) and a stable set (independent set). How many split graphs on n vertices are there? Approximately how many are there, as n goes to infinity? After summarizing the work on these questions by Collins and Trenk (2018), I will explain how I have generalized their results in the setting of combinatorial species. Species theory is a framework for counting combinatorial objects acted on by isomorphisms. As I will show, split graphs turn out to be an excellent application of that theory, allowing me to prove a conjecture of Cheng, Collins, and Trenk (2016). Along the way, I will demonstrate an asymptotic result, which I am shocked to find has not been discovered before, about bi-colored graphs (which are related to bipartite graphs). This talk should be accessible to undergraduates who have seen combinatorics. There will be pictures, integer sequences, and generating functions.
Previous Semesters
Speaker: Sedar Ngoma (SUNY Geneseo)
Title:On an inverse problem for a parabolic differential equation
Time: Wednesday, Nov. 14, 2018 , 3:30 - 4:30 pm
Location: 101 Holmes
Abstract:Inverse problems have many applications in science, technology, engineering, mathematics, and many other fields. In this talk we introduce the concept of inverse problems, provide some examples, and investigate a time-dependent inverse source problem in a parabolic partial differential equation with an integral constraint and subject to the Neumann boundary condition. Thanks to a certain transformation, we prove the existence and uniqueness of solutions. Moreover, we develop and implement an algorithm that we used to approximate solutions of the inverse problem by means of the finite element method. Our numerical results show that the proposed scheme is an accurate way for approximating solutions of this inverse problem.
Speaker: Luke Duttweiler
Title:Spectre Analysis: Calculating the Eigenvalues of Families of Hypergraphs…on Halloween
Time: Wednesday, Oct. 31, 2018 , 2:30 - 3:30 pm
Location: 101 Holmes
Abstract: Spectral graph theory is a highly applicable area of mathematics research. In this talk we discuss some basics for spectral graph theory, suggest a definition for cycles and paths of oriented hypergraphs, and determine the Laplaican eigenvalues of these cycles and paths.
Speaker: Luke Duttweiler
Title: My Statistics Internship
Time: Wednesday, Oct. 3, 2018, 2:30 - 3:20 pm
Location: 101 Holmes
Abstract: I will discuss the internship that I did over the summer in statistics. Including what I actually did, what (mathematics) was expected of me by my employers, what I learned, and how I found the internship. If there is time I will also give a sample of the sort of data analysis that I did.
Speaker: Howard Skogman
Title: Ozanam’s Rule is False
Time: Wednesday, Feb. 21, 2:30 - 3:20 pm
Location: 214 Albert Brown Building
Abstract: Ozanam’s rule is a test to determine whether a given integer is a polygonal number. It was originally stated in 1694 (by Jacques Ozanam) and generalized in 1778 (by Jean-Etienne Montucla) but in 2017 it was shown to be false in general by Adam Krause (Brockport Math MA student). We discuss the history of this rule and give a corrected version.
Speaker: Jason Morris
Title: Familiar (and less familiar) Spaces of Sequences
Time: Wednesday, Nov. 8, 2:45 - 3:45 pm
Location: 104 Holmes
Abstract: It’s a pleasant surprise when you find out that you can do arithmetic with sequences just as if they were vectors in 2D or 3D. But you can do more than just vector arithmetic. You can make sense of magnitude and inner products, and you can perform linear operations on sequences. You can even have a sequence of sequences that converges (to a sequence, of course)! The choice of how to measure magnitude has consequences, and different choices lead to classical sequence spaces, such as l^∞ , c, c_0 , l^1 , l^2 , and l^p . These are introduced, and some of their properties are considered. Then we can get to the “less familiar” part: does it make sense to have l(p_n) where p_n itself is a sequence?
Notes:
1. If you studied infinite series in calculus 2, you’ll understand (most of) this talk.
2. If you have taken linear algebra or even real analysis, you’ll understand even more!
3. There may be opportunities for research projects based on this topic.
4. I’m working up to a future talk about the possibility of research in solving differential equations using Sobolev Spaces with variable exponent…but you don’t need to be interested in that to come to this talk about sequences.
Speaker: Trevor Jarvis (Brockport Undergraduate)
Title: Introduction to Knot Theory
Time: Monday, Oct. 30th, 2:45 - 3:45 pm
Location: 104 Holmes
Abstract: In this talk, we will discuss some of the basics of knot theory, following Colin Adams’ The Knot Book. We will cover the first few chapters, some information related to the content of those chapters, as well as some applications of knot theory, essentially, why do we care about it. This talk will be accessible for all undergraduates.
Speaker: Melissa Dimarco
Title: Quivers, an Introduction
Time: Wednesday, Oct. 25th, 2:45 - 3:45 pm
Location: 104 Holmes
Abstract: A quiver is a directed graph with an algebraic context. In this talk, we will introduce quivers and discuss some of their key properties. Hopefully by the end of the talk, you will be astonished by how worthwhile quivers can be in the study of algebra. This talk is accessible to all undergraduates, especially those familiar with vector spaces.
Speaker: Nathan Reff
Title: Quaternion Matrices and Gain Graphs
Time: Wednesday, Oct. 18th, 2:45 - 3:45 pm
Location: 104 Holmes
Abstract: Gain graphs are a special kind of graph where each orientation of an edge is given a group value, which is the inverse of the group value assigned in the opposite orientation. If these edge values are chosen to be unit quaternions, then we can define matrices associated to these graphs so that their algebraic properties can be related to the original graph. In particular, we can find the left and right-eigenvalues associated to these matrices and bound them using graph parameters. The real challenge is that quaternions are not commutative over multiplication. I will define all of these things. Very little prior knowledge is necessary, except perhaps some linear algebra.
Speaker: Howard Skogman
Title: Kernel (method) Panic
Time: Wednesday, Oct. 5th, 3:35 - 4:35 pm
Location: B1 Holmes
Abstract: The “kernel method” is a technique for using generating functions to solve a wide variety of problems. However, each type of problem may require its own “tricks” to make the method work. We will describe one combinatorial problem where the kernel method seems to lead to incorrect or absurd results. More importantly, I have not discovered the trick I need for this problem (or I have and I do not see it). Note that no familiarity with any of the above terms will be assumed in this talk.
Speaker: Gabriel Prajitura
Title: Problem Solving as a Path to Research
Time: Thursday, May 4, 4:30 - 5:45 pm
Location: 106 Holmes
Abstract: The math of pizzas, pancakes, potatoes, cookies, trees, and many other subjects. Special appearances by Patrick and Sponge Bob.
Speaker: John Steiner
Title: Approximation of Fractals
Time: Monday, April 24, 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: A fractal is a geometric object whose basic structure repeats at all scales of magnification. We will explore some unique and interesting fractals, the construction and approximation of these fractals, and how to calculate the dimensions. Using the prior results, we will then explore approximating the construction of fractals with an irrational dimension.
Speaker: Tasneem Zaihra
Title: Workshop on R: Long and Short of R in an Hour
Time: Monday, Feb. 27, 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: R is a freely available language and environment for statistical computing and graphics that has become popular in academia and in many industries. This short workshop will introduce participants to using R with the help of RStudio ( IDE) in an integrated way. It is designed to be accessible to those with little or no experience with R, and will provide participants with skills, examples, and resources that they can use in their own teaching and research. Participants should bring a laptop to the session.
About: The presenter has been using R to teach statistics to undergraduates at all levels as well as for her research and will share her approach and some favorite examples. Topics will include, building comprehensive html/pdf documents, which can include mathematical formula (tex) as well as R code and it’s corresponding output all put together.
We will be using RStudio environment, which provides novices with a powerful but manageable set of tools, data visualization, basic statistical inference using R. Much of it will be facilitated using the mosaic package.
Optional things you can do prior to workshop:
Install or update R on your laptop. (Available at https://cran.r-project.org/)
Install or update RStudio on your laptop (available at https://www.rstudio.com/products/rstudio/download/)
Install the mosaic package and its dependencies on your laptop. (In RStudio, click on the Packages tab, then on Install, then type mosaic in the entry area and R should do its thing.)
Speaker: Gabriel Prajitura
Title: Numerical range and Aluthge transforms
Time: Monday, Dec. 5, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: The numerical range of a matrix is a very sensitive set of values which encodes more information than the eigenvalues. The Aluthge transform of a matrix is a certain permutation of factors. Both are simple objects and lead to many open problems even for 3 by 3 matrices.
Speaker: Nathan Reff
Title: Open Problem: Oriented Hypergraphs and Associated Matrices
Time: Wednesday Nov. 9, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract:For a given hypergraph, an orientation can be assigned to each vertex-edge incidence. These orientations are used to define the incidence, adjacency and Laplacian matrices. The adjacency and Laplacian matrices are particularly nice because they are symmetric, so their eigenvalues are real. A natural question arises: how are the eigenvalues of the adjacency and Laplacian matrices related to the original oriented hypergraph? In this talk, I will present a background on oriented hypergraphs, explain some of the known eigenvalue relationships, and give some current open problems. If time permits, I will show some applications of oriented hypergraphs to chemical reaction networks.
Speaker: Gabriel Prajitura
Title: Open Problem: Korenblum’s Constant
Time: Wednesday Oct. 12, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: The setting is any vector space of complex functions defined for numbers of absolute value less than 1. In general, if the values of a function (in absolute value) are less than the values of another function at every point then the magnitude of the first function (considered as a vector) is less than the magnitude of the second function. That is, there is a preservation of order when we move from local to global. If, instead of considering the values everywhere in the disc we restrict to only the values in an annulus , there is no reason to expect such a preservation of order. Nevertheless, in many vector spaces of function this preservation of order is present. The phenomenon was conjectured by Korenblum in 1995 and it was proved to be true in a large class of spaces in 1999. This raised the question of finding the inner radius of the smallest annulus for which this happens. The value of this radius is called Korenblum’s constant. The exact value of it is not known. What we know today is that it is something between 0.14 and 0.67, with the last improvement dating from 2008. In 2014 Chakraborty and Solynin proved that if we restrict to polynomials of degree at most n then there is a particular Korenblum’s constant only for this kind of functions. As with the general case, the values of these polynomial constants are not known.
Speaker: Howard Skogman
Title: Open Problem: Maximal Moment Distributions of Character Sums
Time: Wednesday Oct. 5, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract:
Given a set of numbers $S = \{a_1, a_2, a_3, …\}$ and an integers $k$, we define the $k$-th moment of the set to be the sum of the $k$-th powers of its elements, that is $$ m_k(S) = \sum_{i} a_i^k $$
In this talk we fix a positive integer $m$ and a prime number $p$ and consider the distribution of the largest moment of a set of $m$, distinct $p$-th complex roots of unity. For the case of $m = 2$ (that is a set of two distinct $p$-th roots of unity), we show that in fact there is only one value. However, if $m > 2$ the number of possible values in the distribution increases. Some natural (and completely open) questions that arise are: (a) Given $m$ and $p$ how many possible values are in the distribution? (b) What are those values? (c) Can we give any lower bounds on these values?
Speaker: Gabriel Prajitura
Title: Open Problem: Gauss - Lucas Theorem Generalizations
Time: Monday, Sept. 19, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: For real functions, Rolle’s theorem tells us that in between two zeros of a function there is always a zero of the derivative. Gauss Lucas theorem shows a property of the same nature in the case of a complex polynomial: the zeros of the derivative are inside the smallest convex polygon containing the zeros of the polynomial. For example, for a polynomial of degree three, the zeros are the vertices of a triangle. The theorem says that the two zeros of the derivative are inside that triangle.
For a polynomial of degree 4, if the zero form a convex quadrilateral, then the zeros of the derivative are inside it. However, there is the possibility that the 4 zeros of the polynomial do not for a convex quadrilateral. For example three of them can be the vertices of a triangle while the fourth is inside that triangle. The theorem still says that the three zeros of the derivative are inside the triangle. But where?
Connecting the fourth point with the other 3, the triangle is divided into 3 smaller triangles. It was prove that only 2 of the three can have zeros of the derivative inside. It is not known if all three zeros of the derivative can be inside only one of the smaller triangle. Or how many of them can be on the sides.
As the degree of the polynomial increases even less is known.
Speaker: Howard Skogman
Title: Open Problem: General Incomplete Gauss Sums and Lehmer Spirals
Time: Monday, Sept. 12, 2016 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: Gauss sums are certain sums of complex n-th roots of unity. In 1973 D. H. Lehmer investigated incomplete versions and noticed that the incomplete sums spiral towards particular values. In fact he showed that almost all of the incomplete sums are located close to one of two points. In this talk we consider more general incomplete Gauss sums and consider similar graphs of the incomplete sums.
Speaker: Howard Skogman (SUNY Brockport)
Title: Introduction to Modular Forms
Time: Wednesday, Oct. 21, 2015 3:35 - 4:35 pm (note was rescheduled)
Location: B2 Holmes
Abstract: Modular forms (or Automorphic Forms) have become one of the most important tools in modern mathematics. They played essential roles in the resolution of Fermat’s Last Theorem in 1995 as well as in the ” Monstrous Moonshine Conjectures” also in what is known as the “Langland;’s Program”, in addition they also appear in “String; Theory” from theoretical physics. In this talk we will give a classical introduction to Modular Functions and Forms, we will discuss their definition, some motivation and some standard examples. This talk will be accessible to undergraduate and graduate students.
Speaker: Daniel Gaile (University of Buffalo)
Title: The Parametric t-test’s Latent Weakness
Time: Monday Nov. 9, 2015 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: When a latent class structure is present, parametric t-tests conducted on the observed continuous variable can be anti-conservative. This problem is exacerbated by: A) test multiplicity across large numbers of manifest assays, each with a latent structure, and B) increased accuracy of the manifest assays to discriminate underlying latent structures. While it is not surprising that violations of the parametric t-test’s underlying assumptions can impact its performance, we demonstrate that latent state conditions can lead to profound overstatements of statistical significance and profound loss of error control. For example, we provide a motivating ‘toy’ data-set for which the parametric t-test quantifies the evidence against the null hypothesis as approximately 12.5 million to 1 when it should be quantified as approximately 250 to 1. This result is relevant in many modern experimental settings, such as pilot array / next-generation sequencing studies, where an underlying latent structure is either known to be true (e.g., methylation and array comparative genomic hybridization) or plausible (e.g., down/up-regulated gene networks). Our findings are also applicable to small animal studies (e.g., mouse and rat studies), for which latent state biological mechanisms are often plausible and the parametric t-test is often applied. Time permitting, we will briefly discuss the effect of latent structure on common distance estimators and present some methylation array results.
Speaker: Dr. Rebecca Smith (SUNY Brockport)
Title: Sorting things out with stacks
Time: Wednesday Sept. 30, 3:35 - 4:35 pm
Location: B2 Holmes
Abstract: A stack is a restricted queue where entries may only enter and exit via the top. As such, a stack sorts using a “last in, first out” process. We shall use this machine with permutations. Mostly, we will be concerned with permutations simply as an arrangement of the numbers 1,2,3,…,n. However, there are some uses for more algebraic properties of permutations. Generally, one either tries to sort a permutation, meaning using a stack to obtain the identity permutation 123…n or one starts with a permutation (generally the identity) and determines which permutations can be generated using a stack. We will start with the problem of sorting permutations using a single stack. We will then talk about different restrictions or freedoms that can be applied as well as ways to string together more than one stack to create a larger machine.
Speaker: Dr. Patrick Papadopulos (University of Rochester)
Title: Math in a Factory: Algebraic Topology and Configuration Spaces
Time: Tuesday, March 10, 2015 2 - 3 pm
Location: B6 Holmes
Abstract:In this talk, we will give an overview of some of the main components of Algebraic topology. In particular, we will introduce common objects and spaces that are studied. Our main goal, however, is to introduce the concept of a configuration space and focus on applications to real world problems. This talk will be aimed at undergraduate students with a basic understanding of point set topology and will include a number of pictures.
Speaker: Dr. Nathan Reff and Dr. Howard Skogman (SUNY Brockport)
Title: Hadamard Matrices and Oriented Hypergraphs II
Time: Thursday February 26, 11 am - 12 pm
Location: B6 Holmes
Abstract:This talk will be a continuation of the previous talk. In particular Nathan will present the proof of the equivalency between Hadamard matrices and certain oriented hypergraphs. Howard will then review known constructions, along with (time permitting) equivalent problems, potential other constructions, and applications.
Speaker: Dr. Nathan Reff (SUNY Brockport)
Title: Hadamard Matrices and Oriented Hypergraphs
Time: Thursday February 19, 11 am - 12 pm
Location: B6 Holmes
Abstract: An nxn matrix with all entries +1 or -1 whose rows are mutually orthogonal is called a Hadamard matrix. It is known that n must be 1,2 or a multiple of 4 for all Hadamard matrices, however it is not known whether Hadamard matrices exist for every n which is a multiple of 4. This problem of existence is well over a century old and is known as the Hadamard conjecture.
A signed graph is a graph with edges labelled either +1 or -1. In this talk I will present a problem equivalent to the Hadamard conjecture which involves signed graphs and their associated matrices. Hadamard matrices enjoy a wide range of applications including a direct connection to error-correcting codes. If time permits, I will mention some known constructions.
Speaker: Dr. Jason Morris (SUNY Brockport)
Title: Does an infinite matrix have eigenvalues?
Time: Thursday October 30, 11 am - 12 pm
Location: B6 Holmes
Abstract: For finite square matrices, we are usually taught to use the determinant to find eigenvalues. There is no easy analog of determinant in the case of infinite matrices, so we explain how to use the insolvability of Av=cv to characterize the so-called “spectral” values of A. It turns out that there are several types of insolvability, leading to a situation where some spectral values could be eigenvalues, and some not. This is the first of possibly several talks that will serve as an overview of spectral theory. The goal is to set a foundation to enable the study of relationships between infinite graphs and some matrices that represent them. Most of the topics should be accessible to students with some background in linear algebra (and in convergence of infinite series).
Speaker: Dr. Howard Skogman (SUNY Brockport)
Title: Covering Graphs, Part II
Time: Thursday October 9, 11 am - 12 pm
Location: B6 Holmes
Abstract:We will go through more examples of the normal (or Galois) cover construction, along with related results. If there is time we will discuss block-diagonalizing the adjacency matrix or the universal cover of a graph.
Speaker: Dr. Howard Skogman (SUNY Brockport)
Title: Covering Graphs, Part I
Time: Thursday October 2, 11 am - 12 pm
Location: B6 Holme
Abstract: We will define a covering graph, prove some results about their structure, discuss general constructions as well as normal (or Galois) covers and non-normal covering graphs.
Speaker: Dr. Nathan Reff (SUNY Brockport)
Title: Oriented gain graphs, oriented hypergraphs, line graphs and eigenvalues
Time: Thursday September 25, 11 am - 12 pm
Location: B6 Holme
Abstract: We define line graphs of gain graphs and study matrix properties of complex unit gain graphs. As with graphs and signed graphs, there is a relationship between the incidence matrix of a complex unit gain graph and the adjacency matrix of the line graph. The line graph of a gain graph is defined using oriented gain graphs, a new structure that generalizes Zaslavsky’s oriented signed graphs and their line graphs. The line graph of an oriented hypergraph is similarly defined and will also be discussed.
Speaker: Dr. Nathan Reff (SUNY Brockport)
Title: Gain Graphs, Oriented Hypergraphs and Matrices Part II
Time: Thursday September 18, 11 am - 12 pm
Location: B6 Holmes
Abstract: An oriented hypergraph is a hypergraph where each vertex-edge incidence is given a label of +1 or -1. Recently, there has been an interest in finding a suitable way to study matrices associated to hypergraphs. I will show how oriented hypergraphs provide a very natural setting to study matrices associated to hypergraphs, and introduce some eigenvalue properties.
If time permits I will mention some potential projects related to these structures and their applications.
Speaker: Dr. Nathan Reff (SUNY Brockport)
Title: Gain Graphs, Oriented Hypergraphs and Matrices
Time: Thursday September 11, 11 am - 12 pm
Location: B6 Holmes
Abstract: A gain graph is a graph where each orientation of an edge is given a group element, which is the inverse of the group element assigned to the opposite orientation. Complex unit gain graphs have particularly nice matrix properties which I will discuss.
An oriented hypergraph is a hypergraph where each vertex-edge incidence is given a label of +1 or -1. Recently, there has been an interest in finding a suitable way to study matrices associated to hypergraphs. I will show how oriented hypergraphs provide a very natural setting to study matrices associated to hypergraphs, and introduce some eigenvalue properties.
If time permits I will mention some potential projects related to these structures and their applications.
Speaker: Dr. Aleksey S. Polunchenko (Binghamton University)
Title: Suspect Something Fishy? How Statistics Can Help Detect It, Quickly
Time: Tuesday, April 22, 2014 12:30 pm - 1:30 pm
Location: 105 Edwards
Abstract:Statistics is a branch of mathematics concerned with rational decision-making among uncertainty. This talk aims to provide an introduction to the nook of statistics that deals with cases when a solution has to be worked out “on-the-go”, i.e. when time is a factor. The talk will focus on the quickest change-point detection problem, aka sequential change-point detection.
Dr. Polunchenko will conduct a one-hour student discussion after the presentation!
Speaker: Dr. Ernest Fokoue (Rochester Institute of Technology)
Title: Discovering the Fascinating World of Big Data Predictive Analytics and Some Mathematical and Statistical Tools for Conquering It
Time: Thursday, March 27, 2014 11 am - 12 pm
Location: Holmes B6
Abstract:Dr. Fokoue will present attractive and appealing big data analytics problems and will identify some of the mathematical and statistical concepts that tend to appear almost ubiquitously in most statistical machine learning methods. Dr. Fokoue hopes to provide guidelines to mathematics, statistics and computer science professors as to some of the things they should emphasize in order to prepare students adequately for a potential career in modern data science.
Speaker: Jonathan Lottes (SUNY Brockport)
Title: Chaos and Dynamical Systems
Time: Thursday, March 6, 2014 11 am - 11:30 am
Location: Holmes B6
Abstract:This talk will give an introduction to some basic terms in dynamical systems and will focus on the sawtooth and reverse sawtooth functions. In particular, the fixed points, eventually fixed points, periodic points, and eventually periodic points will be discussed, as well as how the points of the two functions are related. Other orbits will be looked at to demonstrate the chaotic behavior of the functions.
Speaker: Michelle Anderson (SUNY Brockport)
Title: Modeling Cell Arrangement in Epithelial Tissue
Time: Thursday, March 6, 2014, 11:30 am - 12 pm
Location: Holmes B6
Abstract:
We developed an off-lattice, 3D, particle-based model to simulate cell rearrangement in epithelial sheets. Our model assigns cells orientation and polarization in addition to position, volume, and shape. Including orientation and polarization in our model allowed us to add another facet of realism to individual cells and cell-to-cell interaction allowing us to more realistically simulate important developmental processes in collections of cells.
Speaker: Dr. Mihai Bailesteanu (University of Rochester)
Title: Spin(7) Manifolds - Old and New
Time: Thursday, November 21, 2013, 11 am - 12 pm
Location: Holmes B6
Abstract:Spin(7) Manifolds are 8 dimensional Riemannian manifolds that have a cross product on their tangent bundles which generate a 4-form. We can define some canonical vector fields on these manifolds, which in turn allow us to define some type of moment map. The goal of having a moment map is to study the topology of the underlying manifold. We will discuss some recent developments.
Speaker: Zhuang Hou (University of Rochester)
Title: Delay Differential Equations (DDEs) and Stochastic DDEs: Explosion property and applications
Time: Thursday, November 14, 2013, 11 am - 12 pm
Location: Holmes B6
Abstract: A DDE or SDDE is a differential equation where the increment of the solution not only depends on the value of the solution in the current time but also in the past. This type of equation is getting more and more important in several models. In this talk, I will talk about recent results about the explosion property of SDDE. And I have also joined the work to construct high dimensional DDE model of Genome-wide Dynamics Regulatory Networks. I will also talk about the model in Bio-statistics.
Speaker: Dr. Julius Esunge (University of Mary Washington)
Title: Generating Functions and the Moment Problem
Time: Tuesday, October 29, 2013, 11 am - 12 pm
Location: Holmes 205
Abstract:How much information is sufficient for a random variable? In particular, if we know the mean and variance can we uniquely specify the probability distribution of a random variable? We will consider such questions, together with more general items, and their applications. We will see the impact of these ideas in gambling, reproduction, actuarial science, and many other fields.
Speaker: Dr. Howard Skogman
Title: Towards a more realistic graph theory model
Time: Thursday, September 26, 2013, 11 am - 12 pm
Location: Holmes B6
Abstract:We will consider solutions to the “Heat Equation” on finite graphs. In particular, we will first consider graphs with constant edge weights, then deterministic but non-constant edge weights, and finally we will add a stochastic (random noise) component.
Speaker: Dr. Gabriel Prajitura
Title: The Leibniz Test
Time: Tuesday, September 10, 2013, 11 am - 12 pm
Location: Holmes 205
Abstract:We will present a general version of the Leibniz Test for series in which the usual ingredients (alternation of signs, and decreasing terms) are no longer present.