Journal ArticleDOI
Contrast in complex images.
TLDR
A definition of local band-limited contrast in images is proposed that assigns a contrast value to every point in the image as a function of the spatial frequency band and is helpful in understanding the effects of image-processing algorithms on the perceived contrast.Abstract:
The physical contrast of simple images such as sinusoidal gratings or a single patch of light on a uniform background is well defined and agrees with the perceived contrast, but this is not so for complex images. Most definitions assign a single contrast value to the whole image, but perceived contrast may vary greatly across the image. Human contrast sensitivity is a function of spatial frequency; therefore the spatial frequency content of an image should be considered in the definition of contrast. In this paper a definition of local band-limited contrast in images is proposed that assigns a contrast value to every point in the image as a function of the spatial frequency band. For each frequency band, the contrast is defined as the ratio of the bandpass-filtered image at the frequency to the low-pass image filtered to an octave below the same frequency (local luminance mean). This definition raises important implications regarding the perception of contrast in complex images and is helpful in understanding the effects of image-processing algorithms on the perceived contrast. A pyramidal image-contrast structure based on this definition is useful in simulating nonlinear, threshold characteristics of spatial vision in both normal observers and the visually impaired.read more
Citations
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Journal ArticleDOI
On the variety of percepts associated with dichoptic viewing of dissimilar monocular stimuli.
TL;DR: Transparency is favored when the spatial-frequency difference between the eyes is great, particularly when the view of one eye consists of high spatial- frequencies, while superimposition occurs when the two monocular stimuli are located at different depth planes.
Journal ArticleDOI
Modelling of multi-conjugate adaptive optics for spatially variant aberrations in microscopy
TL;DR: In this paper, a multi-conjugate adaptive optics (MCAO) has been proposed as a possible method for correction of these spatially variant aberrations, both for simple model specimens and using real aberration data from a biological specimen.
Proceedings ArticleDOI
Face recognition using Gabor Filters
M.T. Rahman,Md. Al-Amin Bhuiyan +1 more
TL;DR: Two novel contributions of this paper are: scaling of RMS contrast, and contribution of morphing as an advancement of image recognition perfection.
Journal ArticleDOI
Rapid automatic assessment of microvascular density in sidestream dark field images
Rick Bezemer,Rick Bezemer,Johannes G. G. Dobbe,Sebastiaan A. Bartels,Sebastiaan A. Bartels,E. Christiaan Boerma,Paul W. G. Elbers,Michal Heger,Can Ince,Can Ince +9 more
TL;DR: A validated method for rapid and fully automatic assessment of microvascular density in SDF images was presented and was shown to be much faster than the conventional (semi-)manual method.
Journal ArticleDOI
Single image haze removal using content-adaptive dark channel and post enhancement
TL;DR: This study proposes a method of single image haze removal using content-adaptive dark channel and post enhancement, and demonstrates that the proposed method significantly improves the visibility of the hazy image.
References
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Journal ArticleDOI
Chapter 9 Visual adaptation and retinal gain controls
Journal ArticleDOI
Feature Detection in Human Vision: A Phase-Dependent Energy Model
TL;DR: A simple and biologically plausible model of how mammalian visual systems could detect and identify features in an image is presented and it is suggested that the points in a waveform that have unique perceptual significance as ‘lines’ and ‘edges’ are the points where the Fourier components of the waveform come into phase with each other.
Journal ArticleDOI
Contrast constancy: deblurring in human vision by spatial frequency channels.
Mark A. Georgeson,G.D. Sullivan +1 more
TL;DR: It is argued that spatial frequency channels in the visual cortex are organized to compensate for earlier attenuation, and achieves a dramatic 'deblurring' of the image, and optimizes the clarity of vision.