Seminars and Colloquia by Series

TBA by Jun Lu

Series
Dissertation Defense
Time
Monday, March 31, 2014 - 15:00 for 1 hour (actually 50 minutes)
Location
Skiles 269
Speaker
Jun LuSchool of Mathematics, Georgia Tech
This thesis proposes a novel and efficient method (Method of Evolving Junctions) for solving optimal control problems with path constraints, and whose optimal paths are separable. A path is separable if it is the concatenation of finite number of subarcs that are optimal and either entirely constraint active or entirely constraint inactive. In the case when the subarcs can be computed efficiently, the search for the optimal path boils down to determining the junctions that connect those subarcs. In this way, the original infinite dimensional problem of finding the entire path is converted into a finite dimensional problem of determining the optimal junctions. The finite dimensional optimization problem is then solved by a recently developed global optimization strategy, intermittent diffusion. The idea is to add perturbations (noise) to the gradient flow intermittently, which essentially converts the ODE's (gradient descent) into a SDE's problem. It can be shown that the probability of finding the globally optimal path can be arbitrarily close to one. Comparing to existing methods, the method of evolving junctions is fundamentally faster and able to find the globally optimal path as well as a series of locally optimal paths. The efficiency of the algorithm will be demonstrated by solving path planning problems, more specifically, finding the optimal path in cluttered environments with static or dynamic obstacles.

Cohomology of arithmetic groups over function fields

Series
Geometry Topology Seminar
Time
Monday, March 31, 2014 - 14:05 for 1 hour (actually 50 minutes)
Location
Skiles 006
Speaker
Kevin WortmanUniversity of Utah
Suppose that F is a field with p elements, and let G be the finite-index congruence subgroup of SL(n, F[t]) obtained as the kernel of the homomorphism that reduces entries in SL(n, F[t]) modulo the ideal (t). Then H^(n-1)(G;F) is infinitely generated. I'll explain the ideas behind the proof of the above result, which is a special case of a result that applies to any noncocompact arithmetic group defined over function fields.

Phantom Jams and Jamitons in Macroscopic Traffic Models

Series
Applied and Computational Mathematics Seminar
Time
Monday, March 31, 2014 - 14:00 for 1 hour (actually 50 minutes)
Location
Skiles 005
Speaker
Benjamin SeiboldTemple University
Initially homogeneous vehicular traffic flow can become inhomogeneous even in the absence of obstacles. Such ``phantom traffic jams'' can be explained as instabilities of a wide class of ``second-order'' macroscopic traffic models. In this unstable regime, small perturbations amplify and grow into nonlinear traveling waves. These traffic waves, called ``jamitons'', are observed in reality and have been reproduced experimentally. We show that jamitons are analogs of detonation waves in reacting gas dynamics, thus creating an interesting link between traffic flow, combustion, water roll waves, and black holes. This analogy enables us to employ the Zel'dovich-von Neumann-Doering theory to predict the shape and travel velocity of the jamitons. We furthermore demonstrate that the existence of jamiton solutions can serve as an explanation for multi-valued parts that fundamental diagrams of traffic flow are observed to exhibit.

Algebraic degrees of stretch factors in mapping class groups

Series
Dissertation Defense
Time
Monday, March 31, 2014 - 11:00 for 1 hour (actually 50 minutes)
Location
Skiles 006
Speaker
Hyunshik ShinGeorgia Institute of Technology
Given a closed surface S_g of genus g, a mapping class f is said to be pseudo-Anosov if it preserves a pair of transverse measured foliations such that one is expanding and the other one is contracting by a number $\lambda$. The number $\lambda$ is called a stretch factor (or dilatation) of f. Thurston showed that a stretch factor is an algebraic integer with degree bounded above by 6g-6. However, little is known about which degrees occur. Using train tracks on surfaces, we explicitly construct pseudo-Anosov maps on S_g with orientable foliations whose stretch factor $\lambda$ has algebraic degree 2g. Moreover, the stretch factor $\lambda$ is a special algebraic number, called Salem number. Using this result, we show that there is a pseudo-Anosov map whose stretch factor has algebraic degree d, for each positive even integer d such that d is less than or equal to g. Our examples also give a new approach to a conjecture of Penner.

Southeast Geometry Seminar XXIV

Series
Other Talks
Time
Sunday, March 30, 2014 - 08:30 for 8 hours (full day)
Location
Skiles 005
Speaker
Southeast Geometry SeminarSchool of Mathematics, Georgia Tech
The Southeast Geometry Seminar is a series of semiannual one-day events focusing on geometric analysis. These events are hosted in rotation by the following institutions: The University of Alabama at Birmingham, The Georgia Institute of Technology, Emory University, The University of Tennessee Knoxville. The following six speakers will give presentations on topics that include geometric analysis, and related fields, such as partial differential equations, general relativity, and geometric topology: Robert Finn (Stanford University), Bo Guan (Ohio State University), John Harvey (University of Notre Dame), Fernando Schwartz (University of Tennessee), Henry Wente (Toledo, Ohio), Xiangwen Zhang (Columbia University) .

Topics in Ergodic Theory IV: Shannon-McMillan-Breiman Theorem.

Series
Dynamical Systems Working Seminar
Time
Friday, March 28, 2014 - 13:05 for 1 hour (actually 50 minutes)
Location
Skiles 005
Speaker
Lei ZhangGeorgia Tech
We present the proof of the Shannon-McMillan-Breiman Theorem. This is part of a reading seminar geared towards understanding of Smooth Ergodic Theory. (The study of dynamical systems using at the same time tools from measure theory and from differential geometry)It should be accesible to graduate students and the presentation is informal. The first goal will be a proof of the Oseledets multiplicative ergodic theorem for random matrices. Then, we will try to cover the Pesin entropy formula, invariant manifolds, etc.

Average Case Equilibria

Series
ACO Student Seminar
Time
Friday, March 28, 2014 - 12:05 for 1 hour (actually 50 minutes)
Location
Skiles 005
Speaker
Ioannis PanageasGeorgia Tech
Since the 50s and Nash general proof of equilibrium existence in games it is well understood that even simple games may have many, even uncountably infinite, equilibria with different properties. In such cases a natural question arises, which equilibrium is the right one? In this work, we perform average case analysis of evolutionary dynamics in such cases of games. Intuitively, we assign to each equilibrium a probability mass that is proportional to the size of its region of attraction. We develop new techniques to compute these likelihoods for classic games such as the Stag Hunt game (and generalizations) as well as balls-bins games. Our proofs combine techniques from information theory (relative entropy), dynamical systems (center manifold theorem), and algorithmic game theory. Joint work with Georgios Piliouras

Maximal Ideal Spaces

Series
Analysis Working Seminar
Time
Friday, March 28, 2014 - 10:00 for 1 hour (actually 50 minutes)
Location
Skiles 005
Speaker
Ishawari KunwarSchool of Math
Ishwari will cover chapter 5 section 1 of Bounded Analytic Functions.

Heat kernel asymptotics at the cut locus

Series
Stochastics Seminar
Time
Thursday, March 27, 2014 - 15:05 for 1 hour (actually 50 minutes)
Location
Skiles 005
Speaker
Robert NeelLehigh Univ.
We discuss a technique, going back to work of Molchanov, for determining the small-time asymptotics of the heat kernel (equivalently, the large deviations of Brownian motion) at the cut locus of a (sub-) Riemannian manifold (valid away from any abnormal geodesics). We relate the leading term of the expansion to the structure of the cut locus, especially to conjugacy, and explain how this can be used to find general bounds as well as to compute specific examples. We also show how this approach leads to restrictions on the types of singularities of the exponential map that can occur along minimal geodesics. Further, time permitting, we extend this approach to determine the asymptotics for the gradient and Hessian of the logarithm of the heat kernel on a Riemannian manifold, giving a characterization of the cut locus in terms of the behavior of the log-Hessian, which can be interpreted in terms of large deviations of the Brownian bridge. Parts of this work are joint with Davide Barilari, Ugo Boscain, and Grégoire Charlot.

Pages