English

Asteroid shape inversion with light curves using deep learning

Earth and Planetary Astrophysics 2025-04-02 v1 Instrumentation and Methods for Astrophysics Machine Learning

Abstract

Asteroid shape inversion using photometric data has been a key area of study in planetary science and astronomical research.However, the current methods for asteroid shape inversion require extensive iterative calculations, making the process time-consuming and prone to becoming stuck in local optima. We directly established a mapping between photometric data and shape distribution through deep neural networks. In addition, we used 3D point clouds to represent asteroid shapes and utilized the deviation between the light curves of non-convex asteroids and their convex hulls to predict the concave areas of non-convex asteroids. We compared the results of different shape models using the Chamfer distance between traditional methods and ours and found that our method performs better, especially when handling special shapes. For the detection of concave areas on the convex hull, the intersection over union (IoU) of our predictions reached 0.89. We further validated this method using observational data from the Lowell Observatory to predict the convex shapes of the asteroids 3337 Milo and 1289 Kuta, and conducted light curve fitting experiments. The experimental results demonstrated the robustness and adaptability of the method

Keywords

Cite

@article{arxiv.2502.16455,
  title  = {Asteroid shape inversion with light curves using deep learning},
  author = {YiJun Tang and ChenChen Ying and ChengZhe Xia and XiaoMing Zhang and XiaoJun Jiang},
  journal= {arXiv preprint arXiv:2502.16455},
  year   = {2025}
}
R2 v1 2026-06-28T21:54:22.855Z