Mean-Field Chaos Diffusion Models
Abstract
In this paper, we introduce a new class of score-based generative models (SGMs) designed to handle high-cardinality data distributions by leveraging concepts from mean-field theory. We present mean-field chaos diffusion models (MF-CDMs), which address the curse of dimensionality inherent in high-cardinality data by utilizing the propagation of chaos property of interacting particles. By treating high-cardinality data as a large stochastic system of interacting particles, we develop a novel score-matching method for infinite-dimensional chaotic particle systems and propose an approximation scheme that employs a subdivision strategy for efficient training. Our theoretical and empirical results demonstrate the scalability and effectiveness of MF-CDMs for managing large high-cardinality data structures, such as 3D point clouds.
Cite
Text
Park et al. "Mean-Field Chaos Diffusion Models." International Conference on Machine Learning, 2024.Markdown
[Park et al. "Mean-Field Chaos Diffusion Models." International Conference on Machine Learning, 2024.](https://mlanthology.org/icml/2024/park2024icml-meanfield/)BibTeX
@inproceedings{park2024icml-meanfield,
title = {{Mean-Field Chaos Diffusion Models}},
author = {Park, Sungwoo and Kim, Dongjun and Alaa, Ahmed},
booktitle = {International Conference on Machine Learning},
year = {2024},
pages = {39702-39736},
volume = {235},
url = {https://mlanthology.org/icml/2024/park2024icml-meanfield/}
}