A Linear Well-Posed Solution To Recover High-Frequency Information For Super Resolution Image Reconstruction

Keywords

Discrete wavelet transforms; Image reconstruction; Image resolution; Image restoration; Wavelet coefficients

Abstract

Multiview super resolution image reconstruction (SRIR) is often cast as a resampling problem by merging non-redundant data from multiple images on a finer grid, while inverting the effect of the camera point spread function (PSF). One main problem with multiview methods is that resampling from nonuniform samples (provided by multiple images) and the inversion of the PSF are highly nonlinear and ill-posed problems. Non-linearity and ill-posedness are typically overcome by linearization and regularization, often through an iterative optimization process, which essentially trade off the very same information (i.e. high frequency) that we want to recover. We propose a different point of view for multiview SRIR that is very much like single-image methods which extrapolate the spectrum of one image selected as reference from among all views. However, for this, the proposed method relies on information provided by all other views, rather than prior constraints as in single-image methods which may not be an accurate source of information. This is made possible by deriving explicit closed-form expressions that define how the local high frequency information that we aim to recover for the reference high resolution image is related to the local low frequency information in the sequence of views. The locality of these expressions due to modeling using wavelets reduces the problem to an exact and linear set of equations that are well-posed and solved algebraically without requiring regularization or interpolation. Results and comparisons with recently published state-of-the-art methods show the superiority of the proposed solution.

Publication Date

10-1-2018

Publication Title

Multidimensional Systems and Signal Processing

Volume

29

Issue

4

Number of Pages

1309-1330

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1007/s11045-017-0499-3

Socpus ID

85020701423 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85020701423

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