SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2020087239> ?p ?o ?g. }

Showing items 1 to 85 of 85 with 100 items per page.

W2020087239 endingPage "19" @default.
W2020087239 startingPage "9" @default.
W2020087239 abstract "Summary One well‐recognized problem in three‐dimensional (3D) confocal microscopic images is that the intensities in deeper slices are generally weaker than those in shallower slices. The loss of intensity with depth hampers both qualitative observation and quantitative measurement of specimens. Two major types of methods exist to compensate for this intensity loss: the first is based on the geometrical optics inside the specimen, and the second applies an empirical parametric intensity decay function (IDF) of depth. A common feature shared by both methods is that they are parameter‐dependent. However, for the optics‐based method there are as yet no fully automated parameter‐setting approaches; and for the IDF method the traditional profile‐fitting approach cannot provide proper parameters if the presumed IDF model does not match the experimental intensity–depth profile of the 3D image. In this paper, we propose a novel maximum‐entropy (ME) approach to fully automated parameter‐setting. In principle the ME approach is suitable for any compensation method as long as it is parameter‐dependent. The basic assumption is that without intensity loss an ideal 3D image should be generally homogeneous with respect to depth and this axial homogeneity can be represented by the entropy of a normalized intensity–depth profile. Experiments on real confocal images showed that such a profile was consistent with visual evaluation of axial intensity homogeneity and that the ME approach could provide proper parameters for both compensation methods mentioned above. Moreover, for the IDF method, experiments on both real and simulated data showed that the ME approach could provide more precise parameters than with traditional profile‐fitting. The Appendix provides a proof that under certain conditions the global maximization of the profile‐entropy is guaranteed." @default.
W2020087239 created "2016-06-24" @default.
W2020087239 creator A5049734766 @default.
W2020087239 creator A5083566606 @default.
W2020087239 date "2005-10-01" @default.
W2020087239 modified "2023-10-14" @default.
W2020087239 title "Fully automated intensity compensation for confocal microscopic images" @default.
W2020087239 cites W1544020679 @default.
W2020087239 cites W1969802592 @default.
W2020087239 cites W1971713927 @default.
W2020087239 cites W1979478251 @default.
W2020087239 cites W1985078289 @default.
W2020087239 cites W1986064647 @default.
W2020087239 cites W1989174525 @default.
W2020087239 cites W1999074985 @default.
W2020087239 cites W2002520885 @default.
W2020087239 cites W2017018128 @default.
W2020087239 cites W2018101603 @default.
W2020087239 cites W2066233909 @default.
W2020087239 cites W2076927398 @default.
W2020087239 cites W2114308276 @default.
W2020087239 cites W2155178205 @default.
W2020087239 cites W3044583775 @default.
W2020087239 cites W4246616525 @default.
W2020087239 doi "https://doi.org/10.1111/j.1365-2818.2005.01508.x" @default.
W2020087239 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16269059" @default.
W2020087239 hasPublicationYear "2005" @default.
W2020087239 type Work @default.
W2020087239 sameAs 2020087239 @default.
W2020087239 citedByCount "16" @default.
W2020087239 countsByYear W20200872392013 @default.
W2020087239 countsByYear W20200872392015 @default.
W2020087239 crossrefType "journal-article" @default.
W2020087239 hasAuthorship W2020087239A5049734766 @default.
W2020087239 hasAuthorship W2020087239A5083566606 @default.
W2020087239 hasConcept C105795698 @default.
W2020087239 hasConcept C106301342 @default.
W2020087239 hasConcept C117251300 @default.
W2020087239 hasConcept C119857082 @default.
W2020087239 hasConcept C120665830 @default.
W2020087239 hasConcept C121332964 @default.
W2020087239 hasConcept C136009344 @default.
W2020087239 hasConcept C142259097 @default.
W2020087239 hasConcept C154945302 @default.
W2020087239 hasConcept C31972630 @default.
W2020087239 hasConcept C33923547 @default.
W2020087239 hasConcept C41008148 @default.
W2020087239 hasConcept C62520636 @default.
W2020087239 hasConcept C93038891 @default.
W2020087239 hasConceptScore W2020087239C105795698 @default.
W2020087239 hasConceptScore W2020087239C106301342 @default.
W2020087239 hasConceptScore W2020087239C117251300 @default.
W2020087239 hasConceptScore W2020087239C119857082 @default.
W2020087239 hasConceptScore W2020087239C120665830 @default.
W2020087239 hasConceptScore W2020087239C121332964 @default.
W2020087239 hasConceptScore W2020087239C136009344 @default.
W2020087239 hasConceptScore W2020087239C142259097 @default.
W2020087239 hasConceptScore W2020087239C154945302 @default.
W2020087239 hasConceptScore W2020087239C31972630 @default.
W2020087239 hasConceptScore W2020087239C33923547 @default.
W2020087239 hasConceptScore W2020087239C41008148 @default.
W2020087239 hasConceptScore W2020087239C62520636 @default.
W2020087239 hasConceptScore W2020087239C93038891 @default.
W2020087239 hasIssue "1" @default.
W2020087239 hasLocation W20200872391 @default.
W2020087239 hasLocation W20200872392 @default.
W2020087239 hasOpenAccess W2020087239 @default.
W2020087239 hasPrimaryLocation W20200872391 @default.
W2020087239 hasRelatedWork W1568996612 @default.
W2020087239 hasRelatedWork W1999392235 @default.
W2020087239 hasRelatedWork W2019481703 @default.
W2020087239 hasRelatedWork W2024930283 @default.
W2020087239 hasRelatedWork W2055668825 @default.
W2020087239 hasRelatedWork W2059493168 @default.
W2020087239 hasRelatedWork W2075537321 @default.
W2020087239 hasRelatedWork W2156037511 @default.
W2020087239 hasRelatedWork W2371593620 @default.
W2020087239 hasRelatedWork W2572678357 @default.
W2020087239 hasVolume "220" @default.
W2020087239 isParatext "false" @default.
W2020087239 isRetracted "false" @default.
W2020087239 magId "2020087239" @default.
W2020087239 workType "article" @default.