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Microarray image processing is known as a valuable tool for gene expression estimation, a crucial step in understanding biological processes within living organisms. Automation and reliability are open subjects in microarray image processing, where grid alignment and spot segmentation are essential processes that can influence the quality of gene expression information. The paper proposes a novel partial differential equation (PDE)-based approach for fully automatic grid alignment in case of microarray images. Our approach can handle image distortions and performs grid alignment using the vertical and horizontal luminance function profiles. These profiles are evolved using a hyperbolic shock filter PDE and then refined using the autocorrelation function. The results are compared with the ones delivered by state-of-the-art approaches for grid alignment in terms of accuracy and computational complexity. Using the same PDE formalism and curve fitting, automatic spot segmentation is achieved and visual results are presented. Considering microarray images with different spots layouts, reliable results in terms of accuracy and reduced computational complexity are achieved, compared with existing software platforms and state-of-the-art methods for microarray image processing.

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Physical properties and electrochemical performance of molybdenum–lead-germanate glasses and glass ceramics

Rada¹,

Culea²,

Chelcea³

et al. 2013

Ceramics International

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Effects on the characteristics of bonding and local structure in molybdenum-lead-lead dioxide glasses and vitroceramics

Rada

Zagrai

Rada

et al. 2017

Journal of Alloys and Compounds

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A. Bot

Electrochemical characterization and structure of tungsten–lead–germanate glasses and glass ceramics

Synthesis, structure, optical and electrochemical properties of the lead sulfate-lead dioxide-lead glasses and vitroceramics

Low-complexity PDE-based approach for automatic microarray image processing

Physical properties and electrochemical performance of molybdenum–lead-germanate glasses and glass ceramics

Effects on the characteristics of bonding and local structure in molybdenum-lead-lead dioxide glasses and vitroceramics

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