Robustness and Prediction Accuracy of Machine Learning for Objective Visual Quality Assessment

Andrew Hines; Paul Kendrick; Adriaan Barri; Manish Narwaria; Judith Redi

doi:10.21427/16sm-xn12

Robustness and Prediction Accuracy of Machine Learning for Objective Visual Quality Assessment

Andrew Hines, Paul Kendrick, Adriaan Barri, Manish Narwaria, Judith Redi

Technological University Dublin

Research output: Contribution to conference › Paper › peer-review

Abstract

Machine Learning (ML) is a powerful tool to support the development of objective visual quality assessment metrics, serving as a substitute model for the perceptual mechanisms acting in visual quality appreciation. Nevertheless, the reliability of ML-based techniques within objective quality assessment metrics is often questioned. In this study, the robustness of ML in supporting objective quality assessment is investigated, specifically when the feature set adopted for prediction is suboptimal. A Principal Component Regression based algorithm and a Feed Forward Neural Network are compared when pooling the Structural Similarity Index (SSIM) features perturbed with noise. The neural network adapts better with noise and intrinsically favours features according to their salient content.

Original language	English
DOIs	https://doi.org/10.21427/16sm-xn12
Publication status	Published - 2014
Event	European Signal Processing Conference - Lisbon, Portugal Duration: 1 Sep 2014 → 4 Sep 2014

Conference

Conference	European Signal Processing Conference
Country/Territory	Portugal
City	Lisbon
Period	1/09/14 → 4/09/14

Keywords

Machine Learning
objective visual quality assessment
Principal Component Regression
Feed Forward Neural Network
Structural Similarity Index
noise

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10.21427/16sm-xn12Licence: CC BY-NC-SA

Cite this

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title = "Robustness and Prediction Accuracy of Machine Learning for Objective Visual Quality Assessment",

abstract = "Machine Learning (ML) is a powerful tool to support the development of objective visual quality assessment metrics, serving as a substitute model for the perceptual mechanisms acting in visual quality appreciation. Nevertheless, the reliability of ML-based techniques within objective quality assessment metrics is often questioned. In this study, the robustness of ML in supporting objective quality assessment is investigated, specifically when the feature set adopted for prediction is suboptimal. A Principal Component Regression based algorithm and a Feed Forward Neural Network are compared when pooling the Structural Similarity Index (SSIM) features perturbed with noise. The neural network adapts better with noise and intrinsically favours features according to their salient content.",

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T1 - Robustness and Prediction Accuracy of Machine Learning for Objective Visual Quality Assessment

AU - Hines, Andrew

AU - Kendrick, Paul

AU - Barri, Adriaan

AU - Narwaria, Manish

AU - Redi, Judith

PY - 2014

Y1 - 2014

N2 - Machine Learning (ML) is a powerful tool to support the development of objective visual quality assessment metrics, serving as a substitute model for the perceptual mechanisms acting in visual quality appreciation. Nevertheless, the reliability of ML-based techniques within objective quality assessment metrics is often questioned. In this study, the robustness of ML in supporting objective quality assessment is investigated, specifically when the feature set adopted for prediction is suboptimal. A Principal Component Regression based algorithm and a Feed Forward Neural Network are compared when pooling the Structural Similarity Index (SSIM) features perturbed with noise. The neural network adapts better with noise and intrinsically favours features according to their salient content.

AB - Machine Learning (ML) is a powerful tool to support the development of objective visual quality assessment metrics, serving as a substitute model for the perceptual mechanisms acting in visual quality appreciation. Nevertheless, the reliability of ML-based techniques within objective quality assessment metrics is often questioned. In this study, the robustness of ML in supporting objective quality assessment is investigated, specifically when the feature set adopted for prediction is suboptimal. A Principal Component Regression based algorithm and a Feed Forward Neural Network are compared when pooling the Structural Similarity Index (SSIM) features perturbed with noise. The neural network adapts better with noise and intrinsically favours features according to their salient content.

KW - Machine Learning

KW - objective visual quality assessment

KW - Principal Component Regression

KW - Feed Forward Neural Network

KW - Structural Similarity Index

KW - noise

U2 - 10.21427/16sm-xn12

DO - 10.21427/16sm-xn12

M3 - Paper

T2 - European Signal Processing Conference

Y2 - 1 September 2014 through 4 September 2014

ER -

Robustness and Prediction Accuracy of Machine Learning for Objective Visual Quality Assessment

Abstract

Conference

Keywords

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