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Fast and accurate sCMOS noise correction for fluorescence microscopy

Biagio Mandracchia, Xuanwen Hua, Changliang Guo, Jeonghwan Son, Tara M. Urner, Shu Jia

2020Nature Communications168 citationsDOIOpen Access PDF

Abstract

The rapid development of scientific CMOS (sCMOS) technology has greatly advanced optical microscopy for biomedical research with superior sensitivity, resolution, field-of-view, and frame rates. However, for sCMOS sensors, the parallel charge-voltage conversion and different responsivity at each pixel induces extra readout and pattern noise compared to charge-coupled devices (CCD) and electron-multiplying CCD (EM-CCD) sensors. This can produce artifacts, deteriorate imaging capability, and hinder quantification of fluorescent signals, thereby compromising strategies to reduce photo-damage to live samples. Here, we propose a content-adaptive algorithm for the automatic correction of sCMOS-related noise (ACsN) for fluorescence microscopy. ACsN combines camera physics and layered sparse filtering to significantly reduce the most relevant noise sources in a sCMOS sensor while preserving the fine details of the signal. The method improves the camera performance, enabling fast, low-light and quantitative optical microscopy with video-rate denoising for a broad range of imaging conditions and modalities.

Topics & Concepts

MicroscopyNoise (video)Sensitivity (control systems)Computer sciencePixelImage sensorFrame rateMaterials scienceCMOS sensorCMOSOpticsNoise reductionOptoelectronicsArtificial intelligencePhysicsElectronic engineeringEngineeringImage (mathematics)Advanced Fluorescence Microscopy TechniquesCCD and CMOS Imaging SensorsImage Processing Techniques and Applications
Fast and accurate sCMOS noise correction for fluorescence microscopy | Litcius