1995
Blind deconvolution of fluorescence micrographs by maximum-likelihood estimation.
Krishnamurthi V, Liu Y, Bhattacharyya S, Turner J, Holmes T. Blind deconvolution of fluorescence micrographs by maximum-likelihood estimation. Applied Optics 1995, 34: 6633-47. PMID: 21060518, DOI: 10.1364/ao.34.006633.Peer-Reviewed Original ResearchReal image reconstructionReconstructed imagesBlind deconvolutionImage dataBlind deconvolution algorithmAlgorithmic refinementsBlind deconvolution methodPoint spread functionSame data setImage reconstructionReconstructed point spread functionsAlgorithmData setsImagesBlind versionSmear removalConfocal dataComputer simulationsMaximum likelihood estimationDeblurringFluorescence micrographs
1991
Increased depth of field and stereo pairs of fluorescence micrographs via inverse filtering and maximum‐likelihood estimation
Holmes T, Liu Y, Khosla D, Agard D. Increased depth of field and stereo pairs of fluorescence micrographs via inverse filtering and maximum‐likelihood estimation. Journal Of Microscopy 1991, 164: 217-237. DOI: 10.1111/j.1365-2818.1991.tb03209.x.Peer-Reviewed Original ResearchDepth of fieldConventional optical microscopeGood light sensitivityTwo-dimensional arrayClassical difficult problemConventional microscopeOptical microscopeThree-dimensional arrayFourier componentsImage reconstruction problemConfocal microscopeMicroscopeCone regionSlice theoremPresent limitationsFieldFluorescence micrographsLight sensitivityMicrographsArray