基于深度学习的微观细胞图像理解研究综述

IF 3.7 2区工程技术 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Displays Pub Date : 2025-01-19 DOI:10.1016/j.displa.2025.102968

Yue Huo , Zixuan Lu , Zhi Deng , FeiFan Zhang , Junwen Xiong , Peng Zhang , Hui Huang

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引用次数: 0

摘要

微观细胞图像的增强和识别对于推进生物医学研究至关重要，深度学习方法在各种任务中迅速发展。深度学习驱动多种图像类型的处理，包括微观细胞图像。许多调查都集中在临床图像上，如x射线或CT扫描，或对典型细胞和组织的增强和分割任务。这激发了我们对基于深度学习的微观细胞图像处理进行全面的研究。在介绍了生物医学领域最新的成像技术之后，我们将现有的基于深度学习的方法分为两类：增强和识别。增强部分涉及图像去噪和二维图像的超分辨率，而三维图像增强方法又分为三维重建和各向同性重建。识别部分主要分为三个方面：单细胞识别、细胞器和亚细胞识别、活细胞动态行为识别。最后，我们讨论了基于深度学习的方法的独特挑战和潜在改进。

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A survey of deep learning-based microscopic cell image understanding

Enhancement and recognition of microscopic cell images are crucial for advancing biomedical research, with deep learning methods rapidly developing for various tasks. Deep learning drives the processing of multiple image types, including microscopic cell images. Numerous surveys have focused on clinical images like X-rays or CT scans, or on enhancement and segmentation tasks for typical cells and tissues. This inspired us to conduct a comprehensive survey on deep learning-based image processing of microscopic cell images. After introducing recent imaging techniques in the biomedical field, we classified existing deep learning-based methods into two categories: enhancement and recognition. The enhancement section addresses image denoising and super-resolution of 2D images, while 3D image enhancement methods are further divided into 3D reconstruction and isotropic reconstruction. The recognition section is organized into three main aspects: single cell recognition, organelles and subcellular recognition, and live cell dynamic behavior recognition. Finally, we discuss the unique challenges and potential improvements for deep learning-based methods.

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来源期刊

Displays 工程技术-工程：电子与电气

CiteScore

4.60

自引率

25.60%

发文量

138

审稿时长

92 days

期刊介绍： Displays is the international journal covering the research and development of display technology, its effective presentation and perception of information, and applications and systems including display-human interface. Technical papers on practical developments in Displays technology provide an effective channel to promote greater understanding and cross-fertilization across the diverse disciplines of the Displays community. Original research papers solving ergonomics issues at the display-human interface advance effective presentation of information. Tutorial papers covering fundamentals intended for display technologies and human factor engineers new to the field will also occasionally featured.