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Multi-aperture system approach for snapshot multispectral imaging applications

Martin Hubold, Elisabeth Montag, René Berlich, Róbert Brunner, Robert Brüning

2021Optics Express30 citationsDOIOpen Access PDF

Abstract

We present an ultra-compact system approach for snapshot, multispectral imaging. It is based on a slanted linear variable spectral filter mounted in close proximity to the entrance pupil of a micro-optical, multi-aperture imaging system. A compact demonstration setup with a size of only 60 × 60 × 28 mm 3 is developed, which enables the acquisition of 66 spectral channels in a single shot and offers a linear spectral sampling of approximately six nanometers over an extended wavelength range of 450-850 nm. The spatial sampling of each channel covers up to 400 × 400 pixels. First, the concept, the optical design and the fabrication are detailed. After the optical performance characterization, a comprehensive calibration strategy is developed and applied. An experimental demonstration is performed by acquiring the spatial and the spectral information of an imaged test scene.

Topics & Concepts

Multispectral imageOpticsSpectral imagingSnapshot (computer storage)Liquid crystal tunable filterPixelWavelengthHyperspectral imagingAperture (computer memory)Optical filterComputer scienceImage resolutionMaterials sciencePhysicsComputer visionArtificial intelligenceAcousticsOperating systemPhotonic and Optical DevicesOptical Coatings and GratingsOptical measurement and interference techniques
Multi-aperture system approach for snapshot multispectral imaging applications | Litcius