Freeform surface topology prediction for prescribed illumination via semi-supervised learning
Jeroen CerpentierYouri Meuret
Jeroen CerpentierYouri Meuret
Sep 2023
0被引用
0笔记
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摘要原文
Fast, effective design of freeform illumination components with extended light sources remains an open challenge, despite significant advances in the field. Machine learning techniques already proved to be extremely valuable in solving complex inverse problems in optics and photonics, but their application to freeform optical design is so far limited to imaging optics. This paper presents a rapid, standalone framework for the prediction of freeform surface topologies that generate a prescribed irradiance distribution, from an extended light source. The framework employs a 2D convolutional neural network to model the relationship between the prescribed target irradiance and required freeform topology. This network is trained on the loss between the obtained irradiance and input irradiance, using a second network that replaces Monte-Carlo ray-tracing from source to target. This semi-supervised learning approach proves to be superior compared to a supervised learning approach using ground truth freeform topology/irradiance pairs, a fact that is most likely connected to the observation that multiple freeform topologies can yield similar irradiance patterns. The resulting network is able to rapidly predict smooth freeform topologies that generate arbitrary, complex irradiance patterns.
