S3RP: Self-Supervised Super-Resolution and Prediction for Advection-Diffusion Process

Add code
Nov 08, 2021
Chulin Wang, Kyongmin Yeo, Xiao Jin, Andres Codas, Levente J. Klein, Bruce Elmegreen
Figure 1 for S3RP: Self-Supervised Super-Resolution and Prediction for Advection-Diffusion Process
Figure 2 for S3RP: Self-Supervised Super-Resolution and Prediction for Advection-Diffusion Process
Figure 3 for S3RP: Self-Supervised Super-Resolution and Prediction for Advection-Diffusion Process
Figure 4 for S3RP: Self-Supervised Super-Resolution and Prediction for Advection-Diffusion Process

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

We present a super-resolution model for an advection-diffusion process with limited information. While most of the super-resolution models assume high-resolution (HR) ground-truth data in the training, in many cases such HR dataset is not readily accessible. Here, we show that a Recurrent Convolutional Network trained with physics-based regularizations is able to reconstruct the HR information without having the HR ground-truth data. Moreover, considering the ill-posed nature of a super-resolution problem, we employ the Recurrent Wasserstein Autoencoder to model the uncertainty.

* 9 pages, 8 figures  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon