Performance of a U-Net-based neural network for predictive adaptive optics
Abstract
We apply a U-Net-based convolutional neural network (NN) architecture to the problem of predictive adaptive optics (AO) for tracking and imaging fast-moving targets, such as satellites in low Earth orbit (LEO). We show that the fine-tuned NN is able to achieve an approximately 50% reduction in mean-squared wavefront error over non-predictive approaches while predicting up to eight frames into the future. These results were obtained when the NN, trained mostly on simulated data, tested its performance on 1 kHz Shack–Hartmann wavefront sensor data collected in open-loop at the Advanced Electro-Optical System facility at Haleakala Observatory while the telescope tracked a naturally illuminated piece of LEO space debris. We report, to our knowledge, the first successful test of a NN for the predictive AO application using on-sky data, as well as the first time such a network has been developed for the more stressing space tracking application.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 14, 2021
- Source ID
- 10.1364/ol.422656
Entities
People
- Justin G. Chen
- Lulu Liu
- Vinay Shah
Organizations
- MIT Lincoln Laboratory
- Office Of The Under Secretary Of Defense