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| IMA Annual Program workshops and tutorials |
| AP Workshop: User-Centered Modeling May 07-11, 2012 |
| AP Workshop: Machine Learning: Theory and Computation March 26-30, 2012 |
| AP Workshop: Network Links: Connecting Social, Communication, and Biological Network Analysis February 27-March 02, 2012 |
| AP Workshop: Group Testing Designs, Algorithms, and Applications to Biology February 13-17, 2012 |
| AP Workshop: Large Data Sets in Medical Informatics November 14-18, 2011 |
| AP Workshop: High Dimensional Phenomena September 26-30, 2011 |
| AP Workshop: Large-scale Inverse Problems and Quantification of Uncertainty June 06-10, 2011 |
| AP Workshop: Societally Relevant Computing April 11-15, 2011 |
| AP Workshop: Computing in Image Processing, Computer Graphics, Virtual Surgery, and Sports March 07-11, 2011 |
| Tutorial: Computing and Image Processing with Data Related to Humans and Human Activities March 05-06, 2011 |
| AP Workshop: High Performance Computing and Emerging Architectures January 10-14, 2011 |
| Tutorial: Scientific Computing Using Graphics Processors January 09, 2011 |
| AP Workshop: Numerical Solutions of Partial Differential Equations: Novel Discretization Techniques November 01-05, 2010 |
| AP Workshop: Computing with Uncertainty: Mathematical Modeling, Numerical Approximation and Large Scale Optimization of Complex Systems with Uncertainty October 18-22, 2010 |
| Tutorial: Computing with Uncertainty October 16-17, 2010 |
| AP Workshop: Natural Locomotion in Fluids and on Surfaces: Swimming, Flying, and Sliding June 01-05, 2010 |
| AP Workshop: Transport and Mixing in Complex and Turbulent Flows April 12-16, 2010 |
| Tutorial: Transport and Mixing in Complex and Turbulent Flows April 11, 2010 |
| Tutorial: Tutorial on Analysis and Computation of Incompressible Fluid Flow February 21, 2010 |
| IMA Hot Topics workshops and special events |
| Special Workshop: Workshop for Women in Analysis and PDE May 30-June 02, 2012 |
| Special Workshop: The Mathematics of the New Financial Systems May 17-19, 2012 |
| Special Workshop: Second Abel Conference: A Celebration of John Milnor January 30-February 01, 2012 |
| Special Workshop: Macaulay2 July 25-29, 2011 |
| Special Workshop: Uncertainty Quantification in Industrial and Energy Applications: Experiences and Challenges June 02-04, 2011 |
| Special Workshop: Strain Induced Shape Formation: Analysis, Geometry and Materials Science May 16-20, 2011 |
| Special Workshop: First Abel Conference A Mathematical Celebration of John Tate January 03-05, 2011 |
| Special Workshop: Kickoff Workshop for Project MOSAIC June 30-July 02, 2010 |
 | Introduction to MOSAIC, Daniel Kaplan (Macalester College) |
| Calculus in context: History/Aftermath, Christophe Golé (Smith College) |
| The Integration of … modeling, statistics, computation and calculus at East Tennessee State University, Jeff Randall Knisley (East Tennessee State University) |
| Discrete mathematical models in life sciences, Saber Elaydi (Trinity University) |
| Being Warren Buffet: a classroom and computer simulation of the stock market, Nicholas Jon Horton (Smith College) |
| Identifying modeling concepts, Daniel Kaplan (Macalester College) |
| Interdisciplinarity at Appalachian Putting the pieces together, Eric Marland (Appalachian State University) |
| Workshop participants brief introduction, Randall Pruim (Calvin College) |
| A new approach to introductory statistics, Nathan Tintle (Hope College) |
| Learning by investigation: A context for integrating statistics, mathematics, and computation, Jeff Randall Knisley (East Tennessee State University) |
| Automatic differentiation using MATLAB OOP, Richard D. Neidinger (Davidson College) |
| M-Cast: The cost of information: Lake volume and area, Daniel Kaplan (Macalester College) |
| Keeping it R.E.A.L., Anthony Tongen (James Madison University) |
| Statistical modeling for poets, Vittorio Addona (Macalester College) |
| Simulate THAT!, James Caristi (Valparaiso University) |
| Science 1 course, Eric Cytrynbaum (University of British Columbia) |
| Algorithms for all!!!, Christopher Kuster (Carroll University) |
| Introduction to concept inventories, Daniel Kaplan (Macalester College) |
| Math 135/155 at Macalester College, Daniel Kaplan (Macalester College) |
| Computer packages and languages to support MOSAIC instruction, Randall Pruim (Calvin College) |
| Model eliciting activities, Robert Claude delMas (University of Minnesota) |
| Brainstorming ideas for M-CASTS, Eric Marland (Appalachian State University)) |
| Principles of assessment, Andrew Zieffler (University of Minnesota) |
| R and Matlab at Macalester, Daniel Kaplan (Macalester College) |
| Panel discussion: Institutional opportunities and obstacles – Saber Elaydi (Trinity University, moderator), Olcay Akman (Illinois State University), Jeff Randall Knisley (East Tennessee State University), Eric Marland (Appalachian State University), Michael Pearson (Mathematical Association of America (MAA)), Andrew Zieffler (University of Minnesota) |
| Guiding student work in modeling using reproducible statistical analysis method, Nicholas Jon Horton (Smith College) |
| Special Workshop: Physical Knotting and Linking and its Applications April 09, 2010 |
| Special Workshop: Career Options for Underrepresented Groups in Mathematical Sciences March 25-27, 2010 |
| IMA Seminars on Industrial Problems |
| Industrial Problems Seminar: Sathiya Keerthi: Large scale information extraction from the web February 11, 2011 |
| Industrial Problems Seminar: Genetha Anne Gray - Identifying and quantifying uncertainty in computational models May 07, 2010 |
| Industrial Problems Seminar: Anthony Jose Kearsley - Optimal chemical spectroscopy April 30, 2010 |
| Industrial Problems Seminar: Bonita Saunders - Applying numerical grid generation to the visualization of complex function data April 09, 2010 |
| IMA Postdoc Seminars |
| IMA New Directions short courses |
| Lecture 1 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 1 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 2 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 1 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 3 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 2 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 3 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Ensemble Dynamics and Bred Vectors |
| Lecture 1 -Computation of limit cycles and their isochrons: Applications to biology |
| Lecture 4 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 4 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 5 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 6 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 5 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 6 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 7 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 2 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 7 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 8 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 8 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 2 - Computation of limit cycles and their isochrons: Applications to biology |
| Lecture 3 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 9 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 9 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 3 - Numerical implementation of computations of invariant tori in Hamiltonian systems |
| Lecture 1 - Space Mission Design with Dynamical Systems Theory |
| Lecture 2 - Space Mission Design with Dynamical Systems Theory |
| Exchange lemmas |
| Loss of normal hyperbolicity |
| Lyapunov exponents, periodic orbits, and horseshoes for semiflows on Hilbert space |
| Small solutions of nonlinear Schrodinger equations near first excited states |
| Conditional Stability Theorems for Special Solutions of Nonlinear PDEs |
| Stable and unstable manifolds for bisemigroups |
| Generalized cyclic feedback system for the biomedical interaction network |
| Numerical Fourier analysis of quasi-periodic functions |
| Differential equations with multiple lags |
| Numerical study of regularity of functions related to critical objects |
| Breakup of an invariant circle in a noninvertible map of the plane |
| Some observations from computations of the Kohn-M\"{u}ller model |
| Central Configurations of the N-body problem. |
| Monge-Kantorovich optimal transport problem |
| Energy and emissions markets, and the existing cap-and-trade schemes |
| Simulations of realistic EU ETS models joint work with U. Cetin & P. Barrieu (London School of Economics) |
| Strictly convex transportation costs |
| Discrete time competitive equilibrium models for cap-and-trade schemes and the carbon tax |
| Implementation of a simple model: first example |
| The case cost=distance |
| Mathematical models for allocation mechanisms and cost distribution |
| Implementation of a simple model: second example |
| Economic applications of optimal transport |
| Discrete time competitive equilibrium models for cap-and-trade schemes and the clean development mechanism |
| Non-constant discount rates, time inconsistency, and the golden rule |
| Congested transport |
| Stochastic optimization and first continuous time models of cap-and-trade schemes |
| The Merton problem with hyperbolic discounting |
| Binary martingales and option pricing: 1) Reduced form models; 2) Perturbation methods |
| Stochastic target problems and viscosity solutions |
| Martingale representation theorem for the G-expectation |
| Second order stochastic target problems |
| Singular BSDEs appearing in cap-and-trade models |
| Strict local martingale deflators and pricing American call-type options |
| Dynamic oligopolies and differential games. I |
| Backward stochastic differential equations and connection with semilinear PDEs |
| Game theory, Nash equilibrium, and electricity prices with strategic market players |
| Evaluating regulatory strategies for emmision abatement - An engineering approach |
| Optimal switching problems and applications in energy finance |
| Second order backward stochastic differential equations and connection with fully nonlinear PDEs |
| Stochastic games: Pontryagin maximum principle and the Isaacs conditions |
| Dynamic oligopolies and differential games. II |
| Numerical methods for BSDEs and applications |
| Examples of linear-quadratic stochastic games in environmental finance |
| New Directions Short Course: Invariant Objects in Dynamical Systems and their Applications June 20-July 01, 2011 |
| Lecture 1 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 1 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 2 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 1 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 3 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 2 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 3 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Ensemble Dynamics and Bred Vectors |
| Lecture 1 -Computation of limit cycles and their isochrons: Applications to biology |
| Lecture 4 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 4 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 5 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 6 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 5 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 6 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 7 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 2 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 7 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 8 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 8 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 2 - Computation of limit cycles and their isochrons: Applications to biology |
| Lecture 3 - Automatic differentiation methods in computational dynamical systems: invariant manifolds and normal forms |
| Lecture 9 - Quasi-periodic solutions in dynamical systems and their role in global dynamics |
| Lecture 9 - Normally Hyperbolic Invariant Manifolds: Existence, Persistence, Approximation, and Their Applications |
| Lecture 3 - Numerical implementation of computations of invariant tori in Hamiltonian systems |
| Lecture 1 - Space Mission Design with Dynamical Systems Theory |
| Lecture 2 - Space Mission Design with Dynamical Systems Theory |
| Exchange lemmas |
| Loss of normal hyperbolicity |
| Lyapunov exponents, periodic orbits, and horseshoes for semiflows on Hilbert space |
| Small solutions of nonlinear Schrodinger equations near first excited states |
| Conditional Stability Theorems for Special Solutions of Nonlinear PDEs |
| Stable and unstable manifolds for bisemigroups |
| Generalized cyclic feedback system for the biomedical interaction network |
| Numerical Fourier analysis of quasi-periodic functions |
| Differential equations with multiple lags |
| Numerical study of regularity of functions related to critical objects |
| Breakup of an invariant circle in a noninvertible map of the plane |
| Some observations from computations of the Kohn-M\"{u}ller model |
| Central Configurations of the N-body problem. |
| New Directions Short Course: New Directions Short Course: New Mathematical Models in Economics and Finance June 07-18, 2010 |
| Monge-Kantorovich optimal transport problem |
| Energy and emissions markets, and the existing cap-and-trade schemes |
| Simulations of realistic EU ETS models joint work with U. Cetin & P. Barrieu (London School of Economics) |
| Strictly convex transportation costs |
| Discrete time competitive equilibrium models for cap-and-trade schemes and the carbon tax |
| Implementation of a simple model: first example |
| The case cost=distance |
| Mathematical models for allocation mechanisms and cost distribution |
| Implementation of a simple model: second example |
| Economic applications of optimal transport |
| Discrete time competitive equilibrium models for cap-and-trade schemes and the clean development mechanism |
| Non-constant discount rates, time inconsistency, and the golden rule |
| Congested transport |
| Stochastic optimization and first continuous time models of cap-and-trade schemes |
| The Merton problem with hyperbolic discounting |
| Binary martingales and option pricing: 1) Reduced form models; 2) Perturbation methods |
| Stochastic target problems and viscosity solutions |
| Martingale representation theorem for the G-expectation |
| Second order stochastic target problems |
| Singular BSDEs appearing in cap-and-trade models |
| Strict local martingale deflators and pricing American call-type options |
| Dynamic oligopolies and differential games. I |
| Backward stochastic differential equations and connection with semilinear PDEs |
| Game theory, Nash equilibrium, and electricity prices with strategic market players |
| Evaluating regulatory strategies for emmision abatement - An engineering approach |
| Optimal switching problems and applications in energy finance |
| Second order backward stochastic differential equations and connection with fully nonlinear PDEs |
| Stochastic games: Pontryagin maximum principle and the Isaacs conditions |
| Dynamic oligopolies and differential games. II |
| Numerical methods for BSDEs and applications |
| Examples of linear-quadratic stochastic games in environmental finance |
| IMA Mathematical Modeling in Industry |
| IMA Topics Courses |
| Finite Element Exterior Calculus Course I Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course II Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course III Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course IV |
| Finite Element Exterior Calculus Course V Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course VI Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course VII Douglas N. Arnold (School of Mathematics, University of Minnesota) |
| Finite Element Exterior Calculus Course VIII Douglas N. Arnold (School of Mathematics, University of Minnesota) |