Super-Resolution Image Reconstruction Using Dual-Mode Complex Diffusion-Based Shock Filter and Singular Value Decomposition

Super-resolution (SR) algorithms are widely used to overcome the hardware limitations of the low-cost image acquisition devices. In this paper, we present a single image SR (SISR) approach in wavelet domain, which simultaneously preserves the contrast and edge information. Our algorithm uses the not...

Full description

Saved in:
Bibliographic Details
Published inCircuits, systems, and signal processing Vol. 36; no. 8; pp. 3409 - 3425
Main Authors Suryanarayana, Gunnam, Dhuli, Ravindra
Format Journal Article
LanguageEnglish
Published New York Springer US 01.08.2017
Springer Nature B.V
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:Super-resolution (SR) algorithms are widely used to overcome the hardware limitations of the low-cost image acquisition devices. In this paper, we present a single image SR (SISR) approach in wavelet domain, which simultaneously preserves the contrast and edge information. Our algorithm uses the notion of geometric duality to generate the initial estimation of unknown high-resolution (HR) image, by applying covariance-based interpolation. State-of-the-art wavelet techniques for SISR provide resolution enhancement by replacing the low-frequency subband with the input low-resolution image. This leads to non-uniform illumination in the super-resolved image. The proposed method exploits singular value decomposition to correct the low-frequency subband, as obtained via stationary wavelet transform (SWT). The modified low-frequency subband and the high-frequency subband images are subjected to Lanczos interpolation. The interpolated subbands are filtered by employing diffusion-based shock filter, which operates in the dual dominant modes. All the filtered subband images are fused to generate the final HR image, by applying inverse SWT. Our experimental analysis has demonstrated the superiority of the proposed method in preserving the edges with uniform illumination.
ISSN:0278-081X
1531-5878
DOI:10.1007/s00034-016-0470-9