ExplorerBiomedical EngineeringEngineering
Research PaperResearchia:202607.10035

Partial-Reference IQA Based on Hermite-Gauss Structural Prediction and Texture Deviation

Paolo Giannitrapani

Abstract

We propose PreSPA (Partial-Reference Structural Prediction Approach), a Partial-Reference Image Quality Assessment framework that decomposes perceptual quality into two complementary indices. A structure-aware index, operating in a No-Reference manner, captures structural degradation through Hermite-Gauss prediction of the distorted gradient field and the angular variance of its curvature. A texture-sensitive index estimates local noise through a scalar prior $μ$, obtained from energy difference...

Submitted: July 10, 2026Subjects: Engineering; Biomedical Engineering

Description / Details

We propose PreSPA (Partial-Reference Structural Prediction Approach), a Partial-Reference Image Quality Assessment framework that decomposes perceptual quality into two complementary indices. A structure-aware index, operating in a No-Reference manner, captures structural degradation through Hermite-Gauss prediction of the distorted gradient field and the angular variance of its curvature. A texture-sensitive index estimates local noise through a scalar prior μμ, obtained from energy differences between reference and distorted complex gradient maps on strong-edge regions and accumulated over weakly-structured ones, reflecting the perceptual leakage of degraded edges into surrounding textures. Crucially, μμ is the only information extracted from the reference and is computed once per image pair, reducing the reference footprint to its information-theoretic minimum. The final score is produced by an affine fusion with only three interpretable parameters, making the method compact, transparent, and computationally efficient, with the viewing distance embedded into the operator scale and no dataset-specific calibration. Extensive evaluations on six standard benchmarks show that PreSPA consistently rivals or exceeds leading No-Reference approaches, while in several cases matching the accuracy of Full-Reference models.


Source: arXiv:2607.08563v1 - http://arxiv.org/abs/2607.08563v1 PDF: https://arxiv.org/pdf/2607.08563v1 Original Link: http://arxiv.org/abs/2607.08563v1

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Submission Info
Date:
Jul 10, 2026
Topic:
Biomedical Engineering
Area:
Engineering
Comments:
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