Abstract: A method for determining fluorescence values {?ispe}i?{1, 2, . . . , I} of a set of I fluorescent microparticles {?Pi}i?{1, 2, . . . , I} of a multiplexed analysis, the microparticles being in a monolayer arrangement, includes acquiring a digital fluorescence image of the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}; and computing, for each fluorescent microparticle ?Pi in the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}, a fluorescence value ?imeas based only on pixels of the acquired image corresponding to said fluorescent microparticle ?Pi. The method includes computing the fluorescence value ?ispe of the fluorescent microparticle ?Pi by correcting its first fluorescence ?imeas by a cross-talk fluorescence contribution ?icross in the first fluorescence ?imeas from other fluorescent microparticles {?Pj}j?i in the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}.

Abstract: A method for determining fluorescence values {?ispe}i?{1, 2, . . . , I} of a set of I fluorescent microparticles {?Pi}i?{1, 2, . . . , I} of a multiplexed analysis, the microparticles being in a monolayer arrangement, includes acquiring a digital fluorescence image of the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}; and computing, for each fluorescent microparticle ?Pi in the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}, a fluorescence value ?imeas based only on pixels of the acquired image corresponding to said fluorescent microparticle ?Pi. The method includes computing the fluorescence value ?ispe of the fluorescent microparticle ?Pi by correcting its first fluorescence ?imeas by a cross-talk fluorescence contribution ?icross in the first fluorescence ?imeas from other fluorescent microparticles {?Pj}j?i in the set of fluorescent microparticles {?Pi}i?{1, 2, . . . , I}.