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Stochastics and Statistics Seminar

Matrix displacement convexity and intrinsic dimensionality

May 10 @ 11:00 am - 12:00 pm

Yair Shenfeld, Brown University

E18-304

Abstract:
The space of probability measures endowed with the optimal transport metric has a rich structure with applications in probability, analysis, and geometry. The notion of (displacement) convexity in this space was discovered by McCann, and forms the backbone of this theory.  I will introduce a new, and stronger, notion of displacement convexity which operates on the matrix level. The motivation behind this definition is to capture the intrinsic dimensionality of probability measures which could have very different behaviors along different directions in space. I will show that a broad class of flows satisfy matrix displacement convexity: heat flow, optimal transport, entropic interpolation, mean-field games, and semiclassical limits of non-linear Schrödinger equations. This leads to intrinsic dimensional functional inequalities which provide a systematic improvement on numerous classical functional inequalities.

Bio:
Yair Shenfeld is an Assistant Professor of Applied Mathematics at Brown University.
Previously, he was a C.L.E. Moore instructor and an NSF postdoctoral fellow in the Mathematics department at MIT. He completed his PhD at Princeton University.
He works in high-dimensional probability and its interactions with analysis, geometry, and mathematical physics. His current research interests include stochastic analysis and functional inequalities, optimal transport, and
renormalization group methods. I am also interested in extremal problems in convex geometry. See publications for details.

 


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