On Machine Learning Methods for Mean Field Games and Mean Field Control Problems

Topic: 
On Machine Learning Methods for Mean Field Games and Mean Field Control Problems
Date & Time: 
Tuesday, December 3, 2019 - 13:45 to 14:45
Speaker: 
Mathieu Laurière, Princeton University
Location: 
Room 310, Pudong Campus, 1555 Century Avenue

For external attendees, please RSVP HERE.

Abstract:

In this talk, we will present stochastic numerical methods for mean field games and mean field control problems (also called optimal control of McKean-Vlasov dynamics). These problems arise as the limit of Nash equilibria or social optima in games when the number of players grows to infinity. The first part of the talk will be dedicated to methods based on neural networks to compute solutions when the model is fully known, motivated by applications in high dimension or with common noise. The second part of the talk will introduce a framework for "mean-field reinforcement learning", which can be viewed as the asymptotic limit of multi-agent reinforcement learning with a large number of interacting learners. In each case, theoretical proofs of convergence as well as numerical simulations will be provided. The talk is mostly based on joint work with René Carmona and Zongjun Tan.

Biography:

Mathieu Laurière is a Postdoctoral Research Associate at Princeton University, in the Operations Research and Financial Engineering (ORFE) department. He obtained his MS from University Paris 6 and ENS Cachan, and his PhD from University Paris 7. Prior to joining Princeton University, he was a Postdoctoral Fellow at the NYU-ECNU Institute of Mathematical Sciences at NYU Shanghai. His research interests span the areas of stochastic optimal control, partial differential equations and numerical methods, with a focus on games and control problems with mean-field interactions.

 

Seminar by the NYU-ECNU Institute of Mathematical Sciences at NYU Shanghai