6533b829fe1ef96bd128affe
RESEARCH PRODUCT
Versatile optimization-based speed-up method for autofocusing in digital holographic microscopy
Damian SuskiPiotr ZdańkowskiLuiza StanaszekMaciej TrusiakVicente MicóJulianna Winniksubject
SpeedupOptimization problemComputer sciencePlane (geometry)business.industryImage and Video Processing (eess.IV)FOS: Physical sciencesÒpticaElectrical Engineering and Systems Science - Image and Video ProcessingQuantitative Biology - Quantitative MethodsAtomic and Molecular Physics and OpticsThree dimensional imagingOpticsPosition (vector)FOS: Biological sciencesObject waveFOS: Electrical engineering electronic engineering information engineeringDigital holographic microscopySuccessive parabolic interpolationbusinessAlgorithmQuantitative Methods (q-bio.QM)Physics - OpticsOptics (physics.optics)description
We propose a speed-up method for the in-focus plane detection in digital holographic microscopy that can be applied to a broad class of autofocusing algorithms that involve repetitive propagation of an object wave to various axial locations to decide the in-focus position. The classical autofocusing algorithms apply a uniform search strategy, i.e., they probe multiple, uniformly distributed axial locations, which leads to heavy computational overhead. Our method substantially reduces the computational load, without sacrificing the accuracy, by skillfully selecting the next location to investigate, which results in a decreased total number of probed propagation distances. This is achieved by applying the golden selection search with parabolic interpolation, which is the gold standard for tackling single-variable optimization problems. The proposed approach is successfully applied to three diverse autofocusing cases, providing up to 136-fold speed-up.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-11-23 |