Learning to Become an Expert: Deep Networks Applied to Super-Resolution Microscopy

Traditional approaches for finding well-performing parameterizations of complex imaging systems, such as super-resolution microscopes rely on an extensive exploration phase over the illumination and acquisition settings, prior to the imaging task. This strategy suffers from several issues: it requires a large amount of parameter configurations to be evaluated, it leads to discrepancies between well-performing parameters in the exploration phase and imaging task, and it results in a waste of time and resources given that optimization and final imaging tasks are conducted separately. Here we show that a fully automated, machine learning-based system can conduct imaging parameter optimization toward a trade-off between several objectives, simultaneously to the imaging task. Its potential is highlighted on various imaging tasks, such as live-cell and multicolor imaging and multimodal optimization. This online optimization routine can be integrated to various imaging systems to increase accessibility, optimize performance and improve overall imaging quality.

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Dual attention based fine-grained leukocyte recognition for imbalanced microscopic images

Qin

et al. 2019

IFS

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Learning to Become an Expert: Deep Networks Applied to Super-Resolution Microscopy

Cited by 4 publications

References 10 publications

Fine-grained leukocyte classification with deep residual learning for microscopic images

Fine-grained leukocyte classification with deep residual learning for microscopic images

A machine learning approach for online automated optimization of super-resolution optical microscopy

Dual attention based fine-grained leukocyte recognition for imbalanced microscopic images

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