Compressed sensing in fluorescence microscopy

Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium. CS exploits sparsity constraints based on the knowledge of prior information, relative to the structure of the object in the spatial or other...

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Published inProgress in biophysics and molecular biology Vol. 168; pp. 66 - 80
Main Authors Calisesi, Gianmaria, Ghezzi, Alberto, Ancora, Daniele, D'Andrea, Cosimo, Valentini, Gianluca, Farina, Andrea, Bassi, Andrea
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.01.2022
Subjects
Algorithms
Animals
Biomedical imaging
Compressed sensing
Computational imaging
Fluorescence microscopy
Inverse problems
Magnetic Resonance Imaging
Microscopy, Fluorescence
Optical Imaging
Signal Processing, Computer-Assisted
Optical imaging
Inverse problems
Computational imaging
Compressed sensing
Fluorescence microscopy
Biomedical imaging
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Abstract Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium. CS exploits sparsity constraints based on the knowledge of prior information, relative to the structure of the object in the spatial or other domains. It is commonly used in image and video compression as well as in scientific and medical applications, including computed tomography and magnetic resonance imaging. In the field of fluorescence microscopy, it has been demonstrated to be valuable for fast and high-resolution imaging, from single-molecule localization, super-resolution to light-sheet microscopy. Furthermore, CS has found remarkable applications in the field of mesoscopic imaging, facilitating the study of small animals’ organs and entire organisms. This review article illustrates the working principles of CS, its implementations in optical imaging and discusses several relevant uses of CS in the field of fluorescence imaging from super-resolution microscopy to mesoscopy.
AbstractList Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium. CS exploits sparsity constraints based on the knowledge of prior information, relative to the structure of the object in the spatial or other domains. It is commonly used in image and video compression as well as in scientific and medical applications, including computed tomography and magnetic resonance imaging. In the field of fluorescence microscopy, it has been demonstrated to be valuable for fast and high-resolution imaging, from single-molecule localization, super-resolution to light-sheet microscopy. Furthermore, CS has found remarkable applications in the field of mesoscopic imaging, facilitating the study of small animals' organs and entire organisms. This review article illustrates the working principles of CS, its implementations in optical imaging and discusses several relevant uses of CS in the field of fluorescence imaging from super-resolution microscopy to mesoscopy.Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium. CS exploits sparsity constraints based on the knowledge of prior information, relative to the structure of the object in the spatial or other domains. It is commonly used in image and video compression as well as in scientific and medical applications, including computed tomography and magnetic resonance imaging. In the field of fluorescence microscopy, it has been demonstrated to be valuable for fast and high-resolution imaging, from single-molecule localization, super-resolution to light-sheet microscopy. Furthermore, CS has found remarkable applications in the field of mesoscopic imaging, facilitating the study of small animals' organs and entire organisms. This review article illustrates the working principles of CS, its implementations in optical imaging and discusses several relevant uses of CS in the field of fluorescence imaging from super-resolution microscopy to mesoscopy.
Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium. CS exploits sparsity constraints based on the knowledge of prior information, relative to the structure of the object in the spatial or other domains. It is commonly used in image and video compression as well as in scientific and medical applications, including computed tomography and magnetic resonance imaging. In the field of fluorescence microscopy, it has been demonstrated to be valuable for fast and high-resolution imaging, from single-molecule localization, super-resolution to light-sheet microscopy. Furthermore, CS has found remarkable applications in the field of mesoscopic imaging, facilitating the study of small animals’ organs and entire organisms. This review article illustrates the working principles of CS, its implementations in optical imaging and discusses several relevant uses of CS in the field of fluorescence imaging from super-resolution microscopy to mesoscopy.
Author Valentini, Gianluca
Farina, Andrea
Bassi, Andrea
Calisesi, Gianmaria
Ancora, Daniele
D'Andrea, Cosimo
Ghezzi, Alberto
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  orcidid: 0000-0002-6340-3021
  surname: Valentini
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  organization: Dipartimento di Fisica, Politecnico di Milano, Piazza Leonardo da Vinci 32, 20133, Milano, Italy
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  surname: Farina
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  surname: Bassi
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Keywords Optical imaging
Inverse problems
Computational imaging
Compressed sensing
Fluorescence microscopy
Biomedical imaging
Language English
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Snippet Compressed sensing (CS) is a signal processing approach that solves ill-posed inverse problems, from under-sampled data with respect to the Nyquist criterium....
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StartPage 66
SubjectTerms Algorithms
Animals
Biomedical imaging
Compressed sensing
Computational imaging
Fluorescence microscopy
Inverse problems
Magnetic Resonance Imaging
Microscopy, Fluorescence
Optical Imaging
Signal Processing, Computer-Assisted
Title Compressed sensing in fluorescence microscopy
URI https://dx.doi.org/10.1016/j.pbiomolbio.2021.06.004
https://www.ncbi.nlm.nih.gov/pubmed/34153330
https://www.proquest.com/docview/2544159805
Volume 168
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