Sui Tang, University of California, Santa Barbara
Talk Title: “Data-driven Discovery of Particle-Swarming Models with Gaussian Process”
Abstracts: Interacting particle systems that display swarming behaviors are ubiquitous in science and engineering, such as self-propelled particles, flocking of birds, milling of fish. Modeling interacting particle systems by a system of differential equations plays an essential role in exploring how individual behavior engenders collective behaviors, which is one of the most fundamental and important problems in various disciplines. Although the recent theoretical and numerical study bring a flood of models that can reproduce many macroscopical qualitative swarming patterns of the observed dynamics, the quantitative study towards matching the well-developed models to observational data is scarce.
We consider the data-driven discovery of a second-order particle swarm model with latent radial interactions. Such a model has proven to be capable of reproducing a rich variety of collective behaviors. We propose a scalable learning approach that models the latent interactions as Gaussian processes, which provides an uncertainty-aware modeling of interacting particle systems. We introduce an operator-theoretic framework to provide a detailed analysis of recoverability conditions, and establish statistical optimality of the proposed approach. Numerical results on prototype systems and real data demonstrate the effectiveness of the proposed approach.