Universal adaptive optics for microscopy through embedded neural network control.
Journal
Light, science & applications
ISSN: 2047-7538
Titre abrégé: Light Sci Appl
Pays: England
ID NLM: 101610753
Informations de publication
Date de publication:
13 Nov 2023
13 Nov 2023
Historique:
received:
20
04
2023
accepted:
01
10
2023
revised:
24
09
2023
medline:
13
11
2023
pubmed:
13
11
2023
entrez:
12
11
2023
Statut:
epublish
Résumé
The resolution and contrast of microscope imaging is often affected by aberrations introduced by imperfect optical systems and inhomogeneous refractive structures in specimens. Adaptive optics (AO) compensates these aberrations and restores diffraction limited performance. A wide range of AO solutions have been introduced, often tailored to a specific microscope type or application. Until now, a universal AO solution - one that can be readily transferred between microscope modalities - has not been deployed. We propose versatile and fast aberration correction using a physics-based machine learning assisted wavefront-sensorless AO control (MLAO) method. Unlike previous ML methods, we used a specially constructed neural network (NN) architecture, designed using physical understanding of the general microscope image formation, that was embedded in the control loop of different microscope systems. The approach means that not only is the resulting NN orders of magnitude simpler than previous NN methods, but the concept is translatable across microscope modalities. We demonstrated the method on a two-photon, a three-photon and a widefield three-dimensional (3D) structured illumination microscope. Results showed that the method outperformed commonly-used modal-based sensorless AO methods. We also showed that our ML-based method was robust in a range of challenging imaging conditions, such as 3D sample structures, specimen motion, low signal to noise ratio and activity-induced fluorescence fluctuations. Moreover, as the bespoke architecture encapsulated physical understanding of the imaging process, the internal NN configuration was no-longer a "black box", but provided physical insights on internal workings, which could influence future designs.
Identifiants
pubmed: 37953294
doi: 10.1038/s41377-023-01297-x
pii: 10.1038/s41377-023-01297-x
pmc: PMC10641083
doi:
Types de publication
Journal Article
Langues
eng
Pagination
270Subventions
Organisme : Wellcome Trust
Pays : United Kingdom
Informations de copyright
© 2023. The Author(s).
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