Compressive Sensing Based Hyperspectral Bioluminescent Imaging

机译：基于压缩传感的高光谱生物发光成像

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Photonics based imaging is a widely utilised technique for the study of biological functions within pre-clinical studies. Itis a sensitive and non-invasive technique that is able to detect distributed (biologically informative) visible and nearinfraredlight sources providing information about biological function. Compressive Sensing (CS) is a method of signalprocessing that works on the basis that a signal or image can be compressed without important information being lost.This work describes the development of a CS based hyperspectral Bioluminescence imaging system that can be used tocollect compressed fluence data from the external surface of an animal model, due to an internal source, providing loweracquisition times, higher spectral content and potentially better tomographic source localisation.

机译：基于光子学的成像技术是临床前研究中用于研究生物学功能的一种广泛使用的技术。它是一种敏感的，非侵入性的技术，能够检测提供有关生物学功能信息的分布式（生物学信息）可见和近红外光源。压缩传感（CS）是一种信号处理方法，其工作原理是可以压缩信号或图像而不会丢失重要信息。\ r \ n这项工作描述了基于CS的高光谱生物发光成像系统的开发，该系统由于具有内部来源，可用于从动物模型的外表面收集压缩通量数据，从而缩短了获取时间，提高了光谱含量并可能改善了层析成像源的定位。

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《High-Speed Biomedical Imaging and Spectroscopy IV》|2019年|108891H.1-108891H.7|共7页
会议地点 1605-7422;2410-9045
作者
Alexander Bentley; Jonathan E. Rowe; Hamid Dehghani;
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School of Computer Science, College of Engineering and Physical Sciences, University ofBirmingham,UK,Physical Sciences for Health Doctoral Training Centre, College of Engineering and PhysicalSciences, University of Birmingham, UK;

School of Computer Science, College of Engineering and Physical Sciences, University ofBirmingham, UK;

School of Computer Science, College of Engineering and Physical Sciences, University ofBirmingham,UK,Physical Sciences for Health Doctoral Training Centre, College of Engineering and PhysicalSciences, University of Birmingham, UK;

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1. An Efficient Compression Method of Hyperspectral Images Based on Compressed Sensing and Joint Optimization [J] . Luo Jiqiang, Xu Tingfa, Pan Teng, Integrated Ferroelectrics . 2020,第1期

机译：基于压缩传感和联合优化的高光谱图像有效压缩方法
2. A region-based block compressive sensing algorithm for plant hyperspectral images [J] . Xu Ping, Chen Bingqiang, Zhang Jingcheng, Computers and Electronics in Agriculture . 2019,第期

机译：基于地区的植物高光谱图像块压缩传感算法
3. Hyperspectral imaging based on prior image constrained compressive sensing [J] . Zhang Xinyue, Zhang Xudong, Wang Chao, Journal of electronic imaging . 2017,第2期

机译：基于先验图像约束压缩感知的高光谱成像
4. Compressive Sensing Based Hyperspectral Bioluminescent Imaging [C] . Alexander Bentley, Jonathan E. Rowe, Hamid Dehghani Conference on High-Speed Biomedical Imaging and Spectroscopy IV . 2019

机译：基于压缩感测的高光谱生物发光成像
5. Compressive Sensing with Applications to Hyperspectral Image Processing [D] . Lampe, Bernard Henry. 2019

机译：用应用于高光谱图像处理的压缩感应
6. Distributed Compressed Hyperspectral Sensing Imaging Based on Spectral Unmixing [O] . Zhongliang Wang, Hua Xiao 2020

机译：基于光谱分解的分布式压缩高光谱传感成像
7. SUPER-RESOLUTION OF HYPERSPECTRAL IMAGES USING COMPRESSIVE SENSING BASED APPROACH [O] . R. C. Patel, M. V. Joshi 2012

机译：基于压缩感知方法的超光谱图像超分辨率
8. Recent Advances in Compressed Sensing: Discrete Uncertainty Principles and Fast Hyperspectral Imaging. [R] . Lewis, M. E. 2015

机译：压缩感知的最新进展：离散不确定性原理和快速高光谱成像。

Compressive Sensing Based Hyperspectral Bioluminescent Imaging

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