Paper Info
Title
Fast Hue and Range Preserving Histogram Specification: Theory and New Algorithms for Color Image Enhancement
Abstract
Color image enhancement is a complex and challenging task in digital imaging with abundant applications. Preserving the hue of the input image is crucial in a wide range of situations. We propose simple image enhancement algorithms, which conserve the hue and preserve the range (gamut) of the R, G, B channels in an optimal way. In our setup, the intensity input image is transformed into a target intensity image whose histogram matches a specified, well-behaved histogram. We derive a new color assignment methodology where the resulting enhanced image fits the target intensity image. We analyze the obtained algorithms in terms of chromaticity improvement and compare them with the unique and quite popular histogram-based hue and range preserving algorithm of Naik and Murthy. Numerical tests confirm our theoretical results and show that our algorithms perform much better than the Naik-Murthy algorithm. In spite of their simplicity, they compete with well-established alternative methods for images where hue-preservation is desired.
Year
DOI
Venue
2014
10.1109/TIP.2014.2337755
Image Processing, IEEE Transactions  
Keywords
Field
DocType
image colour analysis,image enhancement,image matching,RGB channel,chromaticity improvement,color assignment methodology,color image enhancement,histogram matching,hue and range preserving histogram specification,target intensity image,Color image enhancement,color perception,exact histogram specification,gamut problem,hue preservation,scaling and shifting methods
Image segmentation,Artificial intelligence,Image histogram,Color image,Computer vision,Pattern recognition,Color histogram,Histogram matching,Algorithm,Adaptive histogram equalization,Histogram equalization,Color normalization,Mathematics
Journal
Volume
Issue
ISSN
23
9
1057-7149
Citations 
PageRank 
References 
24
0.92
18
Authors
2
Name
Order
Citations
PageRank
Mila Nikolova11792105.71
gabriele steidl289684.29