English

Exploring Nonlinear System with Machine Learning: Chua and Lorenz Circuits Analyzed

Computational Physics 2025-07-29 v3

Abstract

Nonlinear circuits serve as crucial carriers and physical models for investigating nonlinear dynamics and chaotic behavior, particularly in the simulation of biological neurons. In this study, Chua's circuit and Lorenz circuit are systematically explored for the first time through machine learning correlation algorithms. Specifically, the upgraded and optimized SINDy-PI model, which is based on neural network and symbolic regression algorithm, is utilized to learn the numerical results of attractors generated by these two nonlinear circuits. Through error analysis, we examine the effects of the precision of input data and the amount of data on the algorithmic model. The findings reveal that when the input data quantity and data precision fall within a certain range, the algorithm model can effectively recognize and restore the differential equation expressions corresponding to the two circuits. Additionally, we test the anti-interference ability of different circuits and the robustness of the algorithm by introducing noise into the test data. The results indicate that under the same noise disturbance, the Lorenz circuit has better noise resistance than Chua's circuit, providing a starting point for further studying the intrinsic properties and characteristics of different nonlinear circuits. The above results will not only offer a reference for the further study of nonlinear circuits and related systems using deep learning algorithms but also lay a preliminary theoretical foundation for the study of related physical problems and applications.

Keywords

Cite

@article{arxiv.2408.16972,
  title  = {Exploring Nonlinear System with Machine Learning: Chua and Lorenz Circuits Analyzed},
  author = {Zhe Wang and Haixia Fan and Jiyuan Zhang and Xiao-Yun Wang},
  journal= {arXiv preprint arXiv:2408.16972},
  year   = {2025}
}

Comments

This work is a very preliminary result of using machine learning to study nonlinear system. It is not a very mature work, and there are still certain uncertainties in the results. In a responsible manner, we decided to withdraw this manuscript after deliberation, and readers are invited to pay attention to our follow-up work on nonlinear system in machine learning

R2 v1 2026-06-28T18:28:21.112Z