Democratising deep learning for microscopy with ZeroCostDL4Mic

Lucas von Chamier; Romain F Laine; Johanna Jukkala; Christoph Spahn; Daniel Krentzel; Elias Nehme; Martina Lerche; Sara Hernández-Pérez; Pieta K Mattila; Eleni Karinou; Séamus Holden; Ahmet Can Solak; Alexander Krull; Tim-Oliver Buchholz; Martin L Jones; Loïc A Royer; Christophe Leterrier; Yoav Shechtman; Florian Jug; Mike Heilemann; Guillaume Jacquemet; Ricardo Henriques

doi:10.1038/s41467-021-22518-0

Democratising deep learning for microscopy with ZeroCostDL4Mic

Lucas von Chamier, Romain F Laine, Johanna Jukkala, Christoph Spahn, Daniel Krentzel, Elias Nehme, Martina Lerche, Sara Hernández-Pérez, Pieta K Mattila, Eleni Karinou, Séamus Holden, Ahmet Can Solak, Alexander Krull, Tim-Oliver Buchholz, Martin L Jones, Loïc A Royer, Christophe Leterrier, Yoav Shechtman, Florian Jug, Mike HeilemannGuillaume Jacquemet, Ricardo Henriques

Computer Science

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Abstract

Deep Learning (DL) methods are powerful analytical tools for microscopy and can outperform conventional image processing pipelines. Despite the enthusiasm and innovations fuelled by DL technology, the need to access powerful and compatible resources to train DL networks leads to an accessibility barrier that novice users often find difficult to overcome. Here, we present ZeroCostDL4Mic, an entry-level platform simplifying DL access by leveraging the free, cloud-based computational resources of Google Colab. ZeroCostDL4Mic allows researchers with no coding expertise to train and apply key DL networks to perform tasks including segmentation (using U-Net and StarDist), object detection (using YOLOv2), denoising (using CARE and Noise2Void), super-resolution microscopy (using Deep-STORM), and image-to-image translation (using Label-free prediction - fnet, pix2pix and CycleGAN). Importantly, we provide suitable quantitative tools for each network to evaluate model performance, allowing model optimisation. We demonstrate the application of the platform to study multiple biological processes.

Original language	English
Article number	2276
Number of pages	18
Journal	Nature Communications
Volume	12
Issue number	1
Early online date	15 Apr 2021
DOIs	https://doi.org/10.1038/s41467-021-22518-0
Publication status	Published - Dec 2021

Keywords

Animals
Cell Line, Tumor
Cloud Computing
Datasets as Topic
Deep Learning
Humans
Image Processing, Computer-Assisted/methods
Microscopy/methods
Primary Cell Culture
Rats
Software

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ChamierL2021DemocratisingFinal published version, 17.8 MBLicence: Creative Commons: Attribution (CC BY)

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von Chamier, L., Laine, R. F., Jukkala, J., Spahn, C., Krentzel, D., Nehme, E., Lerche, M., Hernández-Pérez, S., Mattila, P. K., Karinou, E., Holden, S., Solak, A. C., Krull, A., Buchholz, T.-O., Jones, M. L., Royer, L. A., Leterrier, C., Shechtman, Y., Jug, F., ... Henriques, R. (2021). Democratising deep learning for microscopy with ZeroCostDL4Mic. Nature Communications, 12(1), Article 2276. https://doi.org/10.1038/s41467-021-22518-0

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title = "Democratising deep learning for microscopy with ZeroCostDL4Mic",

abstract = "Deep Learning (DL) methods are powerful analytical tools for microscopy and can outperform conventional image processing pipelines. Despite the enthusiasm and innovations fuelled by DL technology, the need to access powerful and compatible resources to train DL networks leads to an accessibility barrier that novice users often find difficult to overcome. Here, we present ZeroCostDL4Mic, an entry-level platform simplifying DL access by leveraging the free, cloud-based computational resources of Google Colab. ZeroCostDL4Mic allows researchers with no coding expertise to train and apply key DL networks to perform tasks including segmentation (using U-Net and StarDist), object detection (using YOLOv2), denoising (using CARE and Noise2Void), super-resolution microscopy (using Deep-STORM), and image-to-image translation (using Label-free prediction - fnet, pix2pix and CycleGAN). Importantly, we provide suitable quantitative tools for each network to evaluate model performance, allowing model optimisation. We demonstrate the application of the platform to study multiple biological processes.",

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year = "2021",

month = dec,

doi = "10.1038/s41467-021-22518-0",

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von Chamier, L, Laine, RF, Jukkala, J, Spahn, C, Krentzel, D, Nehme, E, Lerche, M, Hernández-Pérez, S, Mattila, PK, Karinou, E, Holden, S, Solak, AC, Krull, A, Buchholz, T-O, Jones, ML, Royer, LA, Leterrier, C, Shechtman, Y, Jug, F, Heilemann, M, Jacquemet, G & Henriques, R 2021, 'Democratising deep learning for microscopy with ZeroCostDL4Mic', Nature Communications, vol. 12, no. 1, 2276. https://doi.org/10.1038/s41467-021-22518-0

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T1 - Democratising deep learning for microscopy with ZeroCostDL4Mic

AU - von Chamier, Lucas

AU - Laine, Romain F

AU - Jukkala, Johanna

AU - Spahn, Christoph

AU - Krentzel, Daniel

AU - Nehme, Elias

AU - Lerche, Martina

AU - Hernández-Pérez, Sara

AU - Mattila, Pieta K

AU - Karinou, Eleni

AU - Holden, Séamus

AU - Solak, Ahmet Can

AU - Krull, Alexander

AU - Buchholz, Tim-Oliver

AU - Jones, Martin L

AU - Royer, Loïc A

AU - Leterrier, Christophe

AU - Shechtman, Yoav

AU - Jug, Florian

AU - Heilemann, Mike

AU - Jacquemet, Guillaume

AU - Henriques, Ricardo

PY - 2021/12

Y1 - 2021/12

N2 - Deep Learning (DL) methods are powerful analytical tools for microscopy and can outperform conventional image processing pipelines. Despite the enthusiasm and innovations fuelled by DL technology, the need to access powerful and compatible resources to train DL networks leads to an accessibility barrier that novice users often find difficult to overcome. Here, we present ZeroCostDL4Mic, an entry-level platform simplifying DL access by leveraging the free, cloud-based computational resources of Google Colab. ZeroCostDL4Mic allows researchers with no coding expertise to train and apply key DL networks to perform tasks including segmentation (using U-Net and StarDist), object detection (using YOLOv2), denoising (using CARE and Noise2Void), super-resolution microscopy (using Deep-STORM), and image-to-image translation (using Label-free prediction - fnet, pix2pix and CycleGAN). Importantly, we provide suitable quantitative tools for each network to evaluate model performance, allowing model optimisation. We demonstrate the application of the platform to study multiple biological processes.

AB - Deep Learning (DL) methods are powerful analytical tools for microscopy and can outperform conventional image processing pipelines. Despite the enthusiasm and innovations fuelled by DL technology, the need to access powerful and compatible resources to train DL networks leads to an accessibility barrier that novice users often find difficult to overcome. Here, we present ZeroCostDL4Mic, an entry-level platform simplifying DL access by leveraging the free, cloud-based computational resources of Google Colab. ZeroCostDL4Mic allows researchers with no coding expertise to train and apply key DL networks to perform tasks including segmentation (using U-Net and StarDist), object detection (using YOLOv2), denoising (using CARE and Noise2Void), super-resolution microscopy (using Deep-STORM), and image-to-image translation (using Label-free prediction - fnet, pix2pix and CycleGAN). Importantly, we provide suitable quantitative tools for each network to evaluate model performance, allowing model optimisation. We demonstrate the application of the platform to study multiple biological processes.

KW - Animals

KW - Cell Line, Tumor

KW - Cloud Computing

KW - Datasets as Topic

KW - Deep Learning

KW - Humans

KW - Image Processing, Computer-Assisted/methods

KW - Microscopy/methods

KW - Primary Cell Culture

KW - Rats

KW - Software

U2 - 10.1038/s41467-021-22518-0

DO - 10.1038/s41467-021-22518-0

M3 - Article

C2 - 33859193

SN - 2041-1723

VL - 12

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 2276

ER -

Democratising deep learning for microscopy with ZeroCostDL4Mic

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Keywords

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