Are you an EPFL student looking for a semester project?
Work with us on data science and visualisation projects, and deploy your project as an app on top of Graph Search.
Accurate knowledge of an imaging system's point spread function (PSF) is crucial for successful deconvolution. For fluorescence microscopy, PSF estimations based on either theoretical models or experimental measurements are available. However, due to the axially shift-variant nature of the PSF, neither method guarantees an estimate that is valid for the entire object space. In this work, we present a reduced-parameter version of a state-of-the-art theoretical model. We give a maximum-likelihood based algorithm for the estimation of its parameters, and we show how a fit of our model to two axially isolated point source measurements in an experimental setup can be used to accurately reproduce measured PSFs within the entire specimen.
Suliana Manley, Martin Weigert, Chen Zhang, Willi Leopold Stepp, Dora Mahecic, Juliette Griffie
Michael Stefan Daniel Liebling, Adrian Shajkofci
Suliana Manley, Jenny Sülzle, Laila Abdelaziz Abdelmoniem Elfeky