显微图像处理的无代码机器学习解决方案:深度学习。

IF 3.5 3区 医学 Q3 CELL & TISSUE ENGINEERING
Tissue Engineering Part A Pub Date : 2024-10-01 Epub Date: 2024-04-15 DOI:10.1089/ten.TEA.2024.0014
Elizaveta Chechekhina, Nikita Voloshin, Konstantin Kulebyakin, Pyotr Tyurin-Kuzmin
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引用次数: 0

摘要

近年来,由于机器学习技术的出现,显微图像处理领域有了显著的发展。这些技术为图像处理提供了多种应用。目前,生物学领域采用了许多方法来处理显微图像,从传统的机器学习算法到拥有数百万参数的复杂深度学习人工神经网络,不一而足。然而,要全面掌握这些方法的复杂性,通常需要精通编程和高等数学。在我们的综合综述中,我们探讨了各种广泛使用的深度学习方法,这些方法都是为显微图像处理量身定制的。我们的重点是在生物学领域广受欢迎的算法,这些算法已经过调整,以满足缺乏编程专业知识的用户的需求。从本质上讲,我们的目标受众包括有兴趣探索深度学习算法潜力的生物学家,即使他们不具备编程技能。在整篇综述中,我们阐明了每种算法的基本概念和功能,而没有深入探讨数学和编程的复杂性。最重要的是,所有重点介绍的算法都可以在开放平台上访问,无需代码,我们在综述中提供了详细的说明和链接。必须认识到,解决每个具体问题都需要个性化的方法。因此,我们的重点不在于比较算法,而在于划分它们擅长解决的问题。在实际应用中,研究人员通常会选择多种适合其任务的算法,并通过实验确定最有效的算法。值得注意的是,显微镜技术已超越了生物学领域,其应用横跨地质学和材料科学等多个领域。虽然我们的综述主要以生物医学应用为中心,但这里概述的算法和原理同样适用于其他科学领域。此外,许多建议的解决方案都可以进行修改,以用于完全不同的计算机视觉案例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Code-Free Machine Learning Solutions for Microscopy Image Processing: Deep Learning.

In recent years, there has been a significant expansion in the realm of processing microscopy images, thanks to the advent of machine learning techniques. These techniques offer diverse applications for image processing. Currently, numerous methods are used for processing microscopy images in the field of biology, ranging from conventional machine learning algorithms to sophisticated deep learning artificial neural networks with millions of parameters. However, a comprehensive grasp of the intricacies of these methods usually necessitates proficiency in programming and advanced mathematics. In our comprehensive review, we explore various widely used deep learning approaches tailored for the processing of microscopy images. Our emphasis is on algorithms that have gained popularity in the field of biology and have been adapted to cater to users lacking programming expertise. In essence, our target audience comprises biologists interested in exploring the potential of deep learning algorithms, even without programming skills. Throughout the review, we elucidate each algorithm's fundamental concepts and capabilities without delving into mathematical and programming complexities. Crucially, all the highlighted algorithms are accessible on open platforms without requiring code, and we provide detailed descriptions and links within our review. It's essential to recognize that addressing each specific problem demands an individualized approach. Consequently, our focus is not on comparing algorithms but on delineating the problems they are adept at solving. In practical scenarios, researchers typically select multiple algorithms suited to their tasks and experimentally determine the most effective one. It is worth noting that microscopy extends beyond the realm of biology; its applications span diverse fields such as geology and material science. Although our review predominantly centers on biomedical applications, the algorithms and principles outlined here are equally applicable to other scientific domains. Furthermore, a number of the proposed solutions can be modified for use in entirely distinct computer vision cases.

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来源期刊
Tissue Engineering Part A
Tissue Engineering Part A Chemical Engineering-Bioengineering
CiteScore
9.20
自引率
2.40%
发文量
163
审稿时长
3 months
期刊介绍: Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues. This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine. Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues.
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