基于深度学习潜空间的花粉形态探索

IOP SciNotes Pub Date : 2022-12-01 DOI:10.1088/2633-1357/acadb9

J. Grant-Jacob, M. Zervas, B. Mills

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引用次数: 0

摘要

花粉结构的进化取决于当地的环境、竞争和生态。由于花粉颗粒一般为10-100微米大小，具有纳米级的亚结构，因此扫描电子显微镜是一种重要的成像和分析显微镜技术。在这里，我们使用风格迁移深度学习来探索花粉粒扫描电镜图像的潜在w空间，并展示了使用该技术了解花粉粒进化途径和特征结构特征的潜力。

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Morphology exploration of pollen using deep learning latent space

The structure of pollen has evolved depending on its local environment, competition, and ecology. As pollen grains are generally of size 10–100 microns with nanometre-scale substructure, scanning electron microscopy is an important microscopy technique for imaging and analysis. Here, we use style transfer deep learning to allow exploration of latent w-space of scanning electron microscope images of pollen grains and show the potential for using this technique to understand evolutionary pathways and characteristic structural traits of pollen grains.

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来源期刊

IOP SciNotes

自引率

0.00%

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审稿时长

14 weeks