Learning to Harmonize Cross-vendor X-ray Images by Non-linear Image Dynamics Correction

Yucheng Lu; Shunxin Wang; Dovile Juodelyte; Veronika Cheplygina

doi:10.48550/arXiv.2504.10080

Learning to Harmonize Cross-vendor X-ray Images by Non-linear Image Dynamics Correction

Yucheng Lu, Shunxin Wang, Dovile Juodelyte, Veronika Cheplygina

Research output: Working paper › Preprint › Academic

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Abstract

In this paper, we explore how conventional image enhancement can improve model robustness in medical image analysis. By applying commonly used normalization methods to images from various vendors and studying their influence on model generalization in transfer learning, we show that the nonlinear characteristics of domain-specific image dynamics cannot be addressed by simple linear transforms. To tackle this issue, we reformulate the image harmonization task as an exposure correction problem and propose a method termed Global Deep Curve Estimation (GDCE) to reduce domain-specific exposure mismatch. GDCE performs enhancement via a pre-defined polynomial function and is trained with the help of a ``domain discriminator'', aiming to improve model transparency in downstream tasks compared to existing black-box methods.

Original language	English
Publisher	ArXiv.org
DOIs	https://doi.org/10.48550/arXiv.2504.10080
Publication status	Published - 14 Apr 2025

Keywords

cs.CV
eess.IV

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10.48550/arXiv.2504.10080

2504.10080v1Final published version, 1.81 MB

1 Conference contribution

Learning to Harmonize Cross-Vendor X-ray Images by Non-linear Image Dynamics Correction
Lu, Y., Wang, S., Juodelyte, D. & Cheplygina, V., 2026, Medical Image Understanding and Analysis: 29th Annual Conference, MIUA 2025, Leeds, UK, July 15–17, 2025, Proceedings. Ali, S., Hogg, D. C. & Peckham, M. (eds.). Springer, Vol. Part II. p. 102-115 14 p. (Lecture Notes in Computer Science; vol. 15917).
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Cite this

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abstract = " In this paper, we explore how conventional image enhancement can improve model robustness in medical image analysis. By applying commonly used normalization methods to images from various vendors and studying their influence on model generalization in transfer learning, we show that the nonlinear characteristics of domain-specific image dynamics cannot be addressed by simple linear transforms. To tackle this issue, we reformulate the image harmonization task as an exposure correction problem and propose a method termed Global Deep Curve Estimation (GDCE) to reduce domain-specific exposure mismatch. GDCE performs enhancement via a pre-defined polynomial function and is trained with the help of a ``domain discriminator'', aiming to improve model transparency in downstream tasks compared to existing black-box methods. ",

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KW - eess.IV

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PB - ArXiv.org

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Learning to Harmonize Cross-vendor X-ray Images by Non-linear Image Dynamics Correction

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Learning to Harmonize Cross-Vendor X-ray Images by Non-linear Image Dynamics Correction

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