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Giga-voxel multidimensional fluorescence imaging combining single-pixel detection and data fusion

F. Soldevila, A. J. M. Lenz, A. Ghezzi, A. Farina, C. D’Andrea, E. Tajahuerce

2021Optics Letters22 citationsDOIOpen Access PDF

Abstract

Time-resolved fluorescence imaging is a key tool in biomedical applications, as it allows to non-invasively obtain functional and structural information. However, the big amount of collected data introduces challenges in both acquisition speed and processing needs. Here, we introduce a novel technique that allows to acquire a giga-voxel 4D hypercube in a fast manner while measuring only 0.03% of the dataset. The system combines two single-pixel cameras and a conventional 2D array detector working in parallel. Data fusion techniques are introduced to combine the individual 2D and 3D projections acquired by each sensor in the final high-resolution 4D hypercube, which can be used to identify different fluorophore species by their spectral and temporal signatures.

Topics & Concepts

Computer scienceDetectorSensor fusionData acquisitionComputer visionArtificial intelligenceSpectral imagingFusionKey (lock)OpticsHypercubeMultispectral imageImage processingFluorophoreData processingHyperspectral imagingFull spectral imagingImage sensorDigital imagingMedical imagingSignal processingPattern recognition (psychology)Iterative reconstructionImage fusionFluorescence-lifetime imaging microscopyAssociative arrayFluorescenceDiffuse optical imagingTarget acquisitionNoise (video)Random lasers and scattering mediaOptical Imaging and Spectroscopy TechniquesAdvanced Fluorescence Microscopy Techniques
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