English

3D Scattering Tomography by Deep Learning with Architecture Tailored to Cloud Fields

Image and Video Processing 2020-12-14 v1 Computer Vision and Pattern Recognition Machine Learning

Abstract

We present 3DeepCT, a deep neural network for computed tomography, which performs 3D reconstruction of scattering volumes from multi-view images. Our architecture is dictated by the stationary nature of atmospheric cloud fields. The task of volumetric scattering tomography aims at recovering a volume from its 2D projections. This problem has been studied extensively, leading, to diverse inverse methods based on signal processing and physics models. However, such techniques are typically iterative, exhibiting high computational load and long convergence time. We show that 3DeepCT outperforms physics-based inverse scattering methods in term of accuracy as well as offering a significant orders of magnitude improvement in computational time. To further improve the recovery accuracy, we introduce a hybrid model that combines 3DeepCT and physics-based method. The resultant hybrid technique enjoys fast inference time and improved recovery performance.

Keywords

Cite

@article{arxiv.2012.05960,
  title  = {3D Scattering Tomography by Deep Learning with Architecture Tailored to Cloud Fields},
  author = {Yael Sde-Chen and Yoav Y. Schechner and Vadim Holodovsky and Eshkol Eytan},
  journal= {arXiv preprint arXiv:2012.05960},
  year   = {2020}
}
R2 v1 2026-06-23T20:53:10.968Z