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		<doi>10.1016/j.bbr.2011.03.031</doi>
		<issn>0149-1970</issn>
		<citationkey>CamposVelhoVilhRetaPazo:2003:ApLTMe</citationkey>
		<title>An application of the LTSN method on an inverse problem in hydrologic optics</title>
		<year>2003</year>
		<secondarytype>PRE PN</secondarytype>
		<numberoffiles>1</numberoffiles>
		<size>752 KiB</size>
		<author>Campos Velho, Haroldo Fraga de,</author>
		<author>Vilhena, Marco Tulio de,</author>
		<author>Retamoso, M. R.,</author>
		<author>Pazos, R. P.,</author>
		<group>LAC-INPE-MCT-BR</group>
		<affiliation>Instituto Nacional de Pesquisas Espaciais (INPE)</affiliation>
		<affiliation>Mathematics Institute, Federal University of Rio Grande do Sul</affiliation>
		<affiliation>Department of Mathematics, Foundation of University of Rio Grande</affiliation>
		<affiliation>Department of Mathematics, Pontificia Catholic University of Rio Grande do Sul</affiliation>
		<journal>Progress in Nuclear Energy</journal>
		<volume>42</volume>
		<number>4</number>
		<pages>457-568</pages>
		<transferableflag>1</transferableflag>
		<contenttype>External Contribution</contenttype>
		<versiontype>publisher</versiontype>
		<keywords>inverse problems, radiative transfer equation, source term, boundary conditions, LTSN method, natural-waters, regularization, convergence, equation, entropy.</keywords>
		<abstract>Simultaneous estimation of bioluminescence source term and boundary conditions from, in situ irradiance. data is presented. Inverse analysis is performed by solving a nonlinear optimization problem, where the objective function is given by the square difference between experimental and computed data plus a regularization term. The forward problem is tackled with the LTSN method-that numerically solves the radiative transfer equation. The experimental data are simulated with synthetic data corrupted with noise.</abstract>
		<area>COMP</area>
		<language>en</language>
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