Image filtering in structured illumination microscopy using the Lukosz bound | Zendy

Christiaan H. Righolt | Zendy; Johan A. Slotman | Zendy; Ian Young | Zendy; Sabine Mai | Zendy; Lucas J. van Vliet | Zendy; Sjoerd Stallinga | Zendy

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Image filtering in structured illumination microscopy using the Lukosz bound

Author(s) -

Christiaan H. Righolt,

Johan A. Slotman,

Ian Young,

Sabine Mai,

Lucas J. van Vliet,

Sjoerd Stallinga

Publication year - 2013

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.21.024431

Subject(s) - apodization , optics , point spread function , microscopy , regularization (linguistics) , image quality , filter (signal processing) , linear filter , image resolution , bilateral filter , digital holographic microscopy , computer science , optical filter , spatial filter , computer vision , artificial intelligence , physics , pixel , image (mathematics)

Various aspects of image filtering affect the final image quality in Structured Illumination Microscopy, in particular the regularization parameter and type of regularization function, the relative height of the side bands, and the shape of the apodization function. We propose an apodization filter without adjustable parameters based on the application of the Lukosz bound in order to guarantee a non-negative point spread function. Simulations of digital resolution charts and experimental data of chromatin structures and of actin filaments show artefact free reconstructions for a wide range of filter parameters. In general, a trade-off is observed between sharpness and noise suppression.

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