Graph-informed simulation-based inference for models of active matterDownload PDF

Published: 17 Mar 2023, Last Modified: 21 Apr 2023ml4materials-iclr2023 PosterReaders: Everyone
Keywords: Simulation based inference, geometric deep learning, active matter, complex systems, dynamic graph learning
TL;DR: We combine geometric deep learning with simulation-based inference to infer model parameters for active matter simulations
Abstract: Many collective systems exist in nature far from equilibrium, ranging from cellular sheets up to flocks of birds. These systems reflect a form of active matter, whereby individual material components have internal energy. Under specific parameter regimes, these active systems undergo phase transitions whereby small fluctuations of single components can lead to global changes to the rheology of the system. Simulations and methods from statistical physics are typically used to understand and predict these phase transitions for real-world observations. In this work, we demonstrate that simulation-based inference can be used to robustly infer active matter parameters from system observations. Moreover, we demonstrate that a small number (from one to three) snapshots of the system can be used for parameter inference and that this graph-informed approach outperforms typical metrics such as the average velocity or mean square displacement of the system. Our work highlights that high-level system information is contained within the relational structure of a collective system and that this can be exploited to better couple models to data.
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