Lie Symmetry Net: Preserving Conservation Laws in Modelling Financial Market Dynamics via Differential Equations
Abstract
This paper employs a novel Lie symmetries-based framework to model the intrinsic symmetries within financial market. Specifically, we introduce Lie symmetry net (LSN), which characterises the Lie symmetries of the differential equations (DE) estimating financial market dynamics, such as the Black-Scholes equation. To simulate these differential equations in a symmetry-aware manner, LSN incorporates a Lie symmetry risk derived from the conservation laws associated with the Lie symmetry operators of the target differential equations. This risk measures how well the Lie symmetries are realised and guides the training of LSN under the structural risk minimisation framework. Extensive numerical experiments demonstrate that LSN effectively realises the Lie symmetries and achieves an error reduction of more than one order of magnitude compared to state-of-the-art methods. The code is available at https://github.com/Jxl163/LSN_code.
Cite
Text
Jiang et al. "Lie Symmetry Net: Preserving Conservation Laws in Modelling Financial Market Dynamics via Differential Equations." Transactions on Machine Learning Research, 2025.Markdown
[Jiang et al. "Lie Symmetry Net: Preserving Conservation Laws in Modelling Financial Market Dynamics via Differential Equations." Transactions on Machine Learning Research, 2025.](https://mlanthology.org/tmlr/2025/jiang2025tmlr-lie/)BibTeX
@article{jiang2025tmlr-lie,
title = {{Lie Symmetry Net: Preserving Conservation Laws in Modelling Financial Market Dynamics via Differential Equations}},
author = {Jiang, Xuelian and Zhu, Tongtian and Xu, Yingxiang and Wang, Can and Zhang, Yeyu and He, Fengxiang},
journal = {Transactions on Machine Learning Research},
year = {2025},
url = {https://mlanthology.org/tmlr/2025/jiang2025tmlr-lie/}
}