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A robust super-resolution method with improved high-frequency components estimation and aliasing correction capabilities

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dc.creator Maiseli, Baraka J.
dc.creator Wu, Chuan
dc.creator Mei, Jiangyuan
dc.creator Liu, Qiang
dc.creator Gao, Huijun
dc.date 2019-08-03T19:02:23Z
dc.date 2019-08-03T19:02:23Z
dc.date 2014-01
dc.date.accessioned 2021-05-03T13:17:01Z
dc.date.available 2021-05-03T13:17:01Z
dc.identifier http://hdl.handle.net/20.500.11810/5305
dc.identifier 10.1016/j.jfranklin.2013.09.007
dc.identifier.uri http://hdl.handle.net/20.500.11810/5305
dc.description In this paper, we have proposed a robust super-resolution high-frequency component estimation (RS-HFCE) method, which can efficiently estimate lost high-frequency components and correct aliasing effects of low-frequency components of an image. The fundamental principle of operation of the proposed method is based on the idea that, when a baseband band-limited image signal of known bandwidth in a high-resolution lattice is iteratively low-pass filtered in the frequency domain, the unknown values in the lattice can be interpolated, thus correcting the aliasing for the low-frequency components. If this process is done along with adjusting the amplitudes of the known pixel values, some high-frequency components of an image are automatically extrapolated. In order to provide simultaneous edge preservation and noise removal capabilities of the super-resolved images, an improved version of an adaptive Perona–Malik (PM) model is incorporated into the process. One of the characteristics of the proposed method is its high level of tolerance capabilities to reconstruction errors and noise caused by an increase in the reconstruction scaling factors. High quality images of higher resolution are still appreciably reconstructed when greater magnification factors are used. From a couple of experiments on real images, and using both subjective and objective image quality assessment measures, it is demonstrated that the proposed method outperforms most of other classical methods.
dc.language en_US
dc.publisher Journal of the Franklin Institute
dc.subject super-resolution, high frequency, Perona-Malik, Regularization
dc.title A robust super-resolution method with improved high-frequency components estimation and aliasing correction capabilities
dc.type Journal Article


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