Information Extraction Techniques in Hyperspectral Imaging Biomedical Applications

IF 3.6 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
S. Ortega, M. Halicek, H. Fabelo, E. Quevedo, B. Fei, G. Callicó
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引用次数: 2

Abstract

Hyperspectral imaging (HSI) is a technology able to measure information about the spectral reflectance or transmission of light from the surface. The spectral data, usually within the ultraviolet and infrared regions of the electromagnetic spectrum, provide information about the interaction between light and different materials within the image. This fact enables the identification of different materials based on such spectral information. In recent years, this technology is being actively explored for clinical applications. One of the most relevant challenges in medical HSI is the information extraction, where image processing methods are used to extract useful information for disease detection and diagnosis. In this chapter, we provide an overview of the information extraction techniques for HSI. First, we introduce the background of HSI, and the main motivations of its usage for medical applications. Second, we present information extraction techniques based on both light propagation models within tissue and machine learning approaches. Then, we survey the usage of such information extraction techniques in HSI biomedical research applications. Finally, we discuss the main advantages and disadvantages of the most commonly used image processing approaches and the current challenges in HSI information extraction techniques in clinical applications.
信息提取技术在高光谱成像生物医学中的应用
高光谱成像(HSI)是一种能够测量表面光的光谱反射率或透射信息的技术。光谱数据通常在电磁波谱的紫外和红外区域内,提供了图像中光与不同材料之间相互作用的信息。这一事实使基于这种光谱信息的不同材料的识别成为可能。近年来,该技术正在积极探索临床应用。医疗HSI中最相关的挑战之一是信息提取,其中使用图像处理方法提取用于疾病检测和诊断的有用信息。在本章中,我们概述了HSI的信息提取技术。首先,我们介绍了HSI的背景,以及它在医疗应用中使用的主要动机。其次,我们提出了基于组织内光传播模型和机器学习方法的信息提取技术。然后,我们调查了这些信息提取技术在HSI生物医学研究中的应用。最后,我们讨论了最常用的图像处理方法的主要优点和缺点,以及目前临床应用中HSI信息提取技术面临的挑战。
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来源期刊
CiteScore
7.80
自引率
5.40%
发文量
36
期刊介绍: Aims and Scope The International Journal of Multimedia Information Retrieval (IJMIR) is a scholarly archival journal publishing original, peer-reviewed research contributions. Its editorial board strives to present the most important research results in areas within the field of multimedia information retrieval. Core areas include exploration, search, and mining in general collections of multimedia consisting of information from the WWW to scientific imaging to personal archives. Comprehensive review and survey papers that offer up new insights, and lay the foundations for further exploratory and experimental work, are also relevant. Relevant topics include Image and video retrieval - theory, algorithms, and systems Social media interaction and retrieval - collaborative filtering, social voting and ranking Music and audio retrieval - theory, algorithms, and systems Scientific and Bio-imaging - MRI, X-ray, ultrasound imaging analysis and retrieval Semantic learning - visual concept detection, object recognition, and tag learning Exploration of media archives - browsing, experiential computing Interfaces - multimedia exploration, visualization, query and retrieval Multimedia mining - life logs, WWW media mining, pervasive media analysis Interactive search - interactive learning and relevance feedback in multimedia retrieval Distributed and high performance media search - efficient and very large scale search Applications - preserving cultural heritage, 3D graphics models, etc. Editorial Policies: We aim for a fast decision time (less than 4 months for the initial decision) There are no page charges in IJMIR. Papers are published on line in advance of print publication. Academic, industrial researchers, and practitioners involved with multimedia search, exploration, and mining will find IJMIR to be an essential source for important results in the field.
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