Courses

  • GRS MA 751: Advanced Statistical Methods II
    Second course in a two-semester PhD sequence on post-classical statistical methods and their applications. Selection from topics in statistical learning, such as regularized basis methods, kernel methods, boosting, neural networks, support vector machines, and graphical models.
  • GRS MA 770: Mathematical and Statistical Methods of Bioinformatics
    Mathematical and statistical bases of bioinformatics methods and their applications. Hidden Markov models, kernel methods, mathematics of machine learning approaches, probabilistic sequence alignment, Markov chain Monte Carlo and Gibbs sampling, mathematics of phylogenetic trees, and statistical methods in microarray analysis.
  • GRS MA 771: Introduction to Dynamical Systems
    Diffeomorphisms and flows; periodic points, nonwandering points, and recurrent points; hyperbolicity, topological conjugacy, and structural stability; stable manifold theorem; symbolic dynamics; Axiom A and chaotic systems.
  • GRS MA 775: Ordinary Differential Equations
    Stable and center manifolds theorem, linearization of vector fields, variational equations, Floquet theory and Poincare; maps for periodic orbits, bifurcation of rest points, averaging theory, topics from singular perturbations, Hamiltonian systems, non-linear oscillations, normal forms, and applications.
  • GRS MA 776: Partial Differential Equations
    Hyperbolic, elliptic, and parabolic equations. Characteristics and separation of variables. Eigenvalue problems, Fourier techniques, Sobolev spaces, and potential theory. Introduction to pseudodifferential operators.
  • GRS MA 779: Probability Theory I
    Introduction to probability with measure theoretic foundations. Fundamentals of measure theory. Probability space. Measurable functions and random variables. Expectation and conditional expectation. Zero-one laws and Borel-Cantelli lemmas. Chracteristic functions. Modes of convergence. Uniform integrability. Skorokhod representation theorem. Basic limit theorems.
  • GRS MA 780: Probability Theory II
    Probability topics important in applications and research. Laws of large numbers. Three series theorem. Central limit theorems for independent and non-identically distributed random variables. Speed of convergence. Large deviations. Laws of the iterated logarithm. Stable and infinitely divisible distributions. Discrete time martingales and applications.
  • GRS MA 781: Estimation Theory
    Review of probability, populations, samples, sampling distributions, and delta theorems. Parametric point estimation. Rao-Cramer inequality, sufficient statistics, Rao-Blackwell theorem, maximum likelihood estimation, least squares estimation, and general linear model of full rank. Confidence intervals. Bayesian analysis and decision theory.
  • GRS MA 782: Hypothesis Testing
    Parametric hypothesis testing, uniformly and locally the most powerful tests, similar tests, invariant tests, likelihood ratio tests, linear model testing, asymptotic theory of likelihood ratio, and chi-squared test. Logit and log-lin analysis of contingency tables.
  • GRS MA 783: Advanced Stochastic Processes
    Proof-based approach to stochastic processes. Brownian motion. Continuous martingales. Stochastic integration. Itô formula. Girsanov?s Theorem. Stochastic differential equations. Feynman-Kac formula. Markov Processes. Local times. Lévy processes. Semimartingales and the general stochastic integral. Stable processes. Fractional Brownian motion.
  • GRS MA 791: Recent Advances in Probability and Statistics I
    Participants discuss ongoing research, as well as important results that have recently appeared in the literature.
  • GRS MA 792: Recent Advances in Probability and Statistics II
    Participants discuss ongoing research, as well as important results that have recently appeared in the literature.
  • GRS MA 822: Topics in Geometry and Topology
    Advanced seminar in topics in differential geometry, topology and mathematical physics of current research interest.
  • GRS MA 841: Seminar: Algebra
  • GRS MA 842: Seminar: Algebra
  • GRS MA 843: Topics in Number Theory I
    Advanced number theory, focusing on such topics as modular forms, special values in L-series, p-adic L-functions, and p-adic variation.
  • GRS MA 844: Topics in Number Theory II
    Advanced number theory, focusing on such topics as Selmer groups, Iwasawa theory, Euler systems, and main conjectures.
  • GRS MA 861: Seminar: Applied Mathematics
  • GRS MA 862: Seminar: Applied Mathematics
  • GRS MA 871: Seminar: Dynamical Systems

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