Unsupervised hyperspectral data mining and bioimaging by information entropy and self-modeling curve resolution
Unsupervised estimation of the dimensionality of hyperspectral microspectroscopy datasets containing pure and mixed spectral features, and extraction of their representative endmember spectra, remains a challenge in biochemical data mining. We report a new versatile algorithm building on semi-nonneg...
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| creator | Pedersen, Simon Vilms Walther, Anders R Callanan, Anthony Stevens, Molly M Hedegaard, Martin A. B Arnspang, Eva C |
| description | Unsupervised estimation of the dimensionality of hyperspectral
microspectroscopy datasets containing pure and mixed spectral features, and
extraction of their representative endmember spectra, remains a challenge in
biochemical data mining. We report a new versatile algorithm building on
semi-nonnegativity constrained self-modeling curve resolution and information
entropy, to estimate the quantity of separable biochemical species from
hyperspectral microspectroscopy, and extraction of their representative
spectra. The algorithm is benchmarked with established methods from satellite
remote sensing, spectral unmixing, and clustering. To demonstrate the
widespread applicability of the developed algorithm, we collected hyperspectral
datasets using spontaneous Raman, Coherent Anti-stokes Raman Scattering and
Fourier Transform IR, of seven reference compounds, an oil-in-water emulsion,
and tissue-engineered extracellular matrices on poly-L-lactic acid and porcine
jejunum-derived small intestine submucosa scaffolds seeded with bovine
chondrocytes. We show the potential of the developed algorithm by consolidating
hyperspectral molecular information with sample microstructure, pertinent to
fields ranging from gastrophysics to regenerative medicine. |
| doi_str_mv | 10.48550/arxiv.2210.03238 |
| format | Article |
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microspectroscopy datasets containing pure and mixed spectral features, and
extraction of their representative endmember spectra, remains a challenge in
biochemical data mining. We report a new versatile algorithm building on
semi-nonnegativity constrained self-modeling curve resolution and information
entropy, to estimate the quantity of separable biochemical species from
hyperspectral microspectroscopy, and extraction of their representative
spectra. The algorithm is benchmarked with established methods from satellite
remote sensing, spectral unmixing, and clustering. To demonstrate the
widespread applicability of the developed algorithm, we collected hyperspectral
datasets using spontaneous Raman, Coherent Anti-stokes Raman Scattering and
Fourier Transform IR, of seven reference compounds, an oil-in-water emulsion,
and tissue-engineered extracellular matrices on poly-L-lactic acid and porcine
jejunum-derived small intestine submucosa scaffolds seeded with bovine
chondrocytes. We show the potential of the developed algorithm by consolidating
hyperspectral molecular information with sample microstructure, pertinent to
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microspectroscopy datasets containing pure and mixed spectral features, and
extraction of their representative endmember spectra, remains a challenge in
biochemical data mining. We report a new versatile algorithm building on
semi-nonnegativity constrained self-modeling curve resolution and information
entropy, to estimate the quantity of separable biochemical species from
hyperspectral microspectroscopy, and extraction of their representative
spectra. The algorithm is benchmarked with established methods from satellite
remote sensing, spectral unmixing, and clustering. To demonstrate the
widespread applicability of the developed algorithm, we collected hyperspectral
datasets using spontaneous Raman, Coherent Anti-stokes Raman Scattering and
Fourier Transform IR, of seven reference compounds, an oil-in-water emulsion,
and tissue-engineered extracellular matrices on poly-L-lactic acid and porcine
jejunum-derived small intestine submucosa scaffolds seeded with bovine
chondrocytes. We show the potential of the developed algorithm by consolidating
hyperspectral molecular information with sample microstructure, pertinent to
fields ranging from gastrophysics to regenerative medicine.</description><subject>Quantitative Biology - Quantitative Methods</subject><subject>Statistics - Computation</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotj8tOhDAUhrtxYUYfwJV9AcbSQilLM_GWTOJmXJPT9jA2gZa0QOTtBXR1Lvny5_8IecjZsVBlyZ4g_rj5yPn6YIILdUvCl0_TgHF2CS39XtY1DWjGCB21MALtnXf-SsFbql1wPVy3Uy_U-TbEHkYXPEU_xjAsO5Wwa7M-WOw20ExxRhoxhW7a0Dty00KX8P5_Hsjl9eVyes_On28fp-dzBrJSGRphZMFRc10wC6oAhdLUQnIlpVaKqaq2gDnHWuSsEgq0KqVpMW_ByhzFgTz-xe7GzRDX4nFpNvNmNxe_7yRW_g</recordid><startdate>20221006</startdate><enddate>20221006</enddate><creator>Pedersen, Simon Vilms</creator><creator>Walther, Anders R</creator><creator>Callanan, Anthony</creator><creator>Stevens, Molly M</creator><creator>Hedegaard, Martin A. B</creator><creator>Arnspang, Eva C</creator><scope>ALC</scope><scope>EPD</scope><scope>GOX</scope></search><sort><creationdate>20221006</creationdate><title>Unsupervised hyperspectral data mining and bioimaging by information entropy and self-modeling curve resolution</title><author>Pedersen, Simon Vilms ; Walther, Anders R ; Callanan, Anthony ; Stevens, Molly M ; Hedegaard, Martin A. B ; Arnspang, Eva C</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a678-ec3c642eb2b40da84a8e6c9362866b880879dae12e9310738ab856cfe1fad61e3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Quantitative Biology - Quantitative Methods</topic><topic>Statistics - Computation</topic><toplevel>online_resources</toplevel><creatorcontrib>Pedersen, Simon Vilms</creatorcontrib><creatorcontrib>Walther, Anders R</creatorcontrib><creatorcontrib>Callanan, Anthony</creatorcontrib><creatorcontrib>Stevens, Molly M</creatorcontrib><creatorcontrib>Hedegaard, Martin A. B</creatorcontrib><creatorcontrib>Arnspang, Eva C</creatorcontrib><collection>arXiv Quantitative Biology</collection><collection>arXiv Statistics</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Pedersen, Simon Vilms</au><au>Walther, Anders R</au><au>Callanan, Anthony</au><au>Stevens, Molly M</au><au>Hedegaard, Martin A. B</au><au>Arnspang, Eva C</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Unsupervised hyperspectral data mining and bioimaging by information entropy and self-modeling curve resolution</atitle><date>2022-10-06</date><risdate>2022</risdate><abstract>Unsupervised estimation of the dimensionality of hyperspectral
microspectroscopy datasets containing pure and mixed spectral features, and
extraction of their representative endmember spectra, remains a challenge in
biochemical data mining. We report a new versatile algorithm building on
semi-nonnegativity constrained self-modeling curve resolution and information
entropy, to estimate the quantity of separable biochemical species from
hyperspectral microspectroscopy, and extraction of their representative
spectra. The algorithm is benchmarked with established methods from satellite
remote sensing, spectral unmixing, and clustering. To demonstrate the
widespread applicability of the developed algorithm, we collected hyperspectral
datasets using spontaneous Raman, Coherent Anti-stokes Raman Scattering and
Fourier Transform IR, of seven reference compounds, an oil-in-water emulsion,
and tissue-engineered extracellular matrices on poly-L-lactic acid and porcine
jejunum-derived small intestine submucosa scaffolds seeded with bovine
chondrocytes. We show the potential of the developed algorithm by consolidating
hyperspectral molecular information with sample microstructure, pertinent to
fields ranging from gastrophysics to regenerative medicine.</abstract><doi>10.48550/arxiv.2210.03238</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Quantitative Biology - Quantitative Methods Statistics - Computation |
| title | Unsupervised hyperspectral data mining and bioimaging by information entropy and self-modeling curve resolution |
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