English

Deep Learning for Optical Misalignment Diagnostics in Multi-Lens Imaging Systems

Optics 2025-07-01 v1 Artificial Intelligence Machine Learning

Abstract

In the rapidly evolving field of optical engineering, precise alignment of multi-lens imaging systems is critical yet challenging, as even minor misalignments can significantly degrade performance. Traditional alignment methods rely on specialized equipment and are time-consuming processes, highlighting the need for automated and scalable solutions. We present two complementary deep learning-based inverse-design methods for diagnosing misalignments in multi-element lens systems using only optical measurements. First, we use ray-traced spot diagrams to predict five-degree-of-freedom (5-DOF) errors in a 6-lens photographic prime, achieving a mean absolute error of 0.031mm in lateral translation and 0.011^\circ in tilt. We also introduce a physics-based simulation pipeline that utilizes grayscale synthetic camera images, enabling a deep learning model to estimate 4-DOF, decenter and tilt errors in both two- and six-lens multi-lens systems. These results show the potential to reshape manufacturing and quality control in precision imaging.

Keywords

Cite

@article{arxiv.2506.23173,
  title  = {Deep Learning for Optical Misalignment Diagnostics in Multi-Lens Imaging Systems},
  author = {Tomer Slor and Dean Oren and Shira Baneth and Tom Coen and Haim Suchowski},
  journal= {arXiv preprint arXiv:2506.23173},
  year   = {2025}
}
R2 v1 2026-07-01T03:38:22.282Z