Patent Document ID: 9008364
Application ID: 13809871
Patent Flag: 1

Claim One:
1. A method for detecting a target present in at least two images of a same scene acquired simultaneously by different cameras, the method comprising: under development conditions, a target-learning step carried out at a computer coupled to the different cameras; under operating conditions, a step of classification of objects present in the images acquired by the different cameras and provided to the computer, said step of classification being carried out at the computer, the target being regarded as detected when an object is classified as being one of the targets learnt during the target-learning step, wherein the target-learning step includes a step of modeling, at the computer, of data X corresponding to an area of interest in the images captured by the different cameras by a parametric distribution law P such that P(x)=P(X 2d ,X 3d ,X T )=P(X 2d )P(X 3d )P(X T ) where X 2d are luminance data in the area of interest, X 3d are depth data in the area of interest, and X T are movement data in the area of interest, the modeling step comprising a step of calculation, at the computer, in each pixel of the area of interest in one of at least two of the different images, of values dx and dy, said dx and dy being derivatives of a pixel luminance in two orthogonal directions x and y, respectively, the luminance data X 2d of the area of interest being modeled by a plurality of α-periodic and/or β-periodic Von Mises-Fisher laws at the computer, periods of said Von Mises-Fisher laws differ from one another, each said Von Mises-Fisher law describing a distribution of normal unit vectors on planes of an equation z=dx.x+dy.y corresponding to all of the pixels of the area of interest, being a multiplication operator in the equation, P(X 2d ) being obtained at the computer by a product of the Von Mises-Fischer laws modeling the luminance data X 2d , said product being determined at the computer; and detecting, at the computer, said target among the objects in the images based upon said target-learning step and said step of classification.