Abstract
A new full-reference Perceptual Image Quality Assessment (PIQA) technique based on Hue-Saturation-Intensity (HSI) transformation method for colour images is offered in this work. Fundamentally, it is combined with three approaches (colour transformation, histogram processing and Human Visual System (HVS) based weighting) and it uses the Discrete Cosine Transform (DCT) domain. The PIQA is composed of four phases. At the first phase, a colour image is transformed using the HSI because an important characteristic of eyes reaction to intensity of light and colour knowledge is used for quality assessment processes. All channels' DCT coefficients have been calculated at the second phase, because many specifications cannot be assessed in the spatial domain. At the third phase, histogram based quality assessment results are obtained by using histogram of each channel (Hue, Saturation and Intensity). These results are weighted for obtaining perceptual quality result taking into account the HVS specifications at the last phase because the human eye has different sensitivities to the intensity and the others (i.e., hue and saturation). Experimental outcomes about feasibility of the PIQA on test images under different deteriorations, both sensible by the HVS and with the same Peak Signal to Noise Ratio (PSNR) result are offered. The PIQA shows better performance in comparison to state-of-the-art techniques
Highlights
Today, digital images are commonly used with application areas ranging from the entertainment industry to the daily life
It is important that the image quality assessment (IQA) result used for which purpose (forensic or medical issues, human vision system (HVS) based evaluation, etc.)
Well-known IQA techniques play a significant role in almost all aspects of image processing algorithms
Summary
Digital images are commonly used with application areas ranging from the entertainment industry to the daily life. After digital images are acquired, they are generally deteriorated for some signal processing reasons (encoding, compression, acquisition, transmission, steganalysis, manipulations, etc.). From this perspective, quality measurement of distorted or deteriorated images is very important issue at this point. The amount of assessed deterioration in an image can have dissimilar comments with respect to various practices and defines whether the given image has asked the quality amount to be valuable for implementation [4]. This means that it is very crucial to present implementation oriented IQA techniques
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