UGoDIT: Unsupervised Group Deep Image Prior Via Transferable Weights

Recent advances in data-centric deep generative models have led to significant progress in solving inverse imaging problems. However, these models (e.g., diffusion models) typically require large amounts of fully sampled (clean) training data, which is often impractical in medical and scientific settings. Training-data-free approaches like Deep Image Prior (DIP) do not require clean images but suffer from noise overfitting and can be computationally expensive as the network parameters need to be optimized for each measurement vector independently. Moreover, DIPbased methods often overlook the potential of learning a prior using a small number of sub-sampled measurements (or degraded images) available during training. In this paper, we propose UGoDIT--an Unsupervised Group DIP via Transferable weights--designed for the low-data regime where only a very small number, M, of sub-sampled measurement vectors are available during training.