English

Deep MR Image Super-Resolution Using Structural Priors

Machine Learning 2018-09-11 v1 Computer Vision and Pattern Recognition Image and Video Processing Machine Learning

Abstract

High resolution magnetic resonance (MR) images are desired for accurate diagnostics. In practice, image resolution is restricted by factors like hardware, cost and processing constraints. Recently, deep learning methods have been shown to produce compelling state of the art results for image super-resolution. Paying particular attention to desired hi-resolution MR image structure, we propose a new regularized network that exploits image priors, namely a low-rank structure and a sharpness prior to enhance deep MR image superresolution. Our contributions are then incorporating these priors in an analytically tractable fashion in the learning of a convolutional neural network (CNN) that accomplishes the super-resolution task. This is particularly challenging for the low rank prior, since the rank is not a differentiable function of the image matrix (and hence the network parameters), an issue we address by pursuing differentiable approximations of the rank. Sharpness is emphasized by the variance of the Laplacian which we show can be implemented by a fixed {\em feedback} layer at the output of the network. Experiments performed on two publicly available MR brain image databases exhibit promising results particularly when training imagery is limited.

Keywords

Cite

@article{arxiv.1809.03140,
  title  = {Deep MR Image Super-Resolution Using Structural Priors},
  author = {Venkateswararao Cherukuri and Tiantong Guo and Steven J. Schiff and Vishal Monga},
  journal= {arXiv preprint arXiv:1809.03140},
  year   = {2018}
}

Comments

Accepted to IEEE ICIP 2018

R2 v1 2026-06-23T03:59:56.098Z