AstroClearNet: Deep image prior for multi-frame astronomical image restoration
This addresses the challenge of denoising, deblurring, and coadding ground-based exposures in astronomy, which is incremental as it builds on deep image priors for a specific domain.
The paper tackled the problem of recovering high-fidelity astronomical images from blurred multi-frame observations by developing a self-supervised deep image prior method, resulting in sharper restored images with promising preliminary results.
Recovering high-fidelity images of the night sky from blurred observations is a fundamental problem in astronomy, where traditional methods typically fall short. In ground-based astronomy, combining multiple exposures to enhance signal-to-noise ratios is further complicated by variations in the point-spread function caused by atmospheric turbulence. In this work, we present a self-supervised multi-frame method, based on deep image priors, for denoising, deblurring, and coadding ground-based exposures. Central to our approach is a carefully designed convolutional neural network that integrates information across multiple observations and enforces physically motivated constraints. We demonstrate the method's potential by processing Hyper Suprime-Cam exposures, yielding promising preliminary results with sharper restored images.