Gaussian mixture model-based contrast enhancement
Résumé
In this study, a method for enhancing low-contrast images is proposed. This method, called Gaussian mixture
model-based contrast enhancement (GMMCE), brings into play the Gaussian mixture modelling of histograms to model
the content of the images. On the basis of the fact that each homogeneous area in natural images has a Gaussian-shaped
histogram, it decomposes the narrow histogram of low-contrast images into a set of scaled and shifted Gaussians. The
individual histograms are then stretched by increasing their variance parameters, and are diffused on the entire
histogram by scattering their mean parameters, to build a broad version of the histogram. The number of Gaussians
as well as their parameters are optimised to set up a Gaussian mixture modelling with lowest approximation error and
highest similarity to the original histogram. Compared with the existing histogram-based methods, the experimental
results show that the quality of GMMCE enhanced pictures are mostly consistent and outperform other benchmark
methods. Additionally, the computational complexity analysis shows that GMMCE is a low-complexity method.