Perceptual Quality Metric With Internal Generative Mechanism

Objective image quality assessment (IQA) aims to evaluate image quality consistently with human perception. Most of the existing perceptual IQA metrics cannot accurately represent the degradations from different types of distortion, e.g., existing structural similarity metrics perform well on conten...

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Bibliographic Details
Published in:IEEE transactions on image processing 2013-01, Vol.22 (1), p.43-54
Main Authors: Wu, Jinjian, Lin, Weisi, Shi, Guangming, Liu, Anmin
Format: Article
Language:English
Subjects:
Algorithms
Animals
Applied sciences
Artificial Intelligence
Bayes Theorem
Bayesian methods
Databases, Factual
Degradation
Detection, estimation, filtering, equalization, prediction
Distortion
Exact sciences and technology
Human
Human visual system
Humans
image decomposition
Image edge detection
Image processing
Image Processing, Computer-Assisted - methods
Image quality
image quality assessment (IQA)
Information, signal and communications theory
internal generative mechanism (IGM)
Measurement
Models, Theoretical
Perception
PSNR
Signal and communications theory
Signal processing
Signal, noise
Signal-To-Noise Ratio
Similarity
Studies
Telecommunications and information theory
Uncertainty
Visual
Visual Perception
Visualization
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Summary:Objective image quality assessment (IQA) aims to evaluate image quality consistently with human perception. Most of the existing perceptual IQA metrics cannot accurately represent the degradations from different types of distortion, e.g., existing structural similarity metrics perform well on content-dependent distortions while not as well as peak signal-to-noise ratio (PSNR) on content-independent distortions. In this paper, we integrate the merits of the existing IQA metrics with the guide of the recently revealed internal generative mechanism (IGM). The IGM indicates that the human visual system actively predicts sensory information and tries to avoid residual uncertainty for image perception and understanding. Inspired by the IGM theory, we adopt an autoregressive prediction algorithm to decompose an input scene into two portions, the predicted portion with the predicted visual content and the disorderly portion with the residual content. Distortions on the predicted portion degrade the primary visual information, and structural similarity procedures are employed to measure its degradation; distortions on the disorderly portion mainly change the uncertain information and the PNSR is employed for it. Finally, according to the noise energy deployment on the two portions, we combine the two evaluation results to acquire the overall quality score. Experimental results on six publicly available databases demonstrate that the proposed metric is comparable with the state-of-the-art quality metrics.
ISSN:1057-7149
1941-0042
DOI:10.1109/TIP.2012.2214048