24 May 2000 Binary image decomposition for intensity-invariant optical nonlinear correlations
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Proceedings Volume 4089, Optics in Computing 2000; (2000) https://doi.org/10.1117/12.386860
Event: 2000 International Topical Meeting on Optics in Computing (OC2000), 2000, Quebec City, Canada
Abstract
Two methods for intensity invariant pattern recognition based on the summation of correlations between multiple binarized orthogonal gray scale images are proposed. The sliced orthogonal nonlinear generalized correlation uses the internal gray scale informations of objects. If the level of illumination of an object changes, the internal gray scale information of the object itself is preserved, although it is shifted. The first method is based on the normalization of segmented targets, and the second deals with the whole input image without segmentation and without normalization. Computer experiments show that correlation peaks of equal intensity are obtained for true objects with different unequal illuminations, and that the methods are very good at rejecting false targets in the presence of correlated disjoint noise. Because the second method is based on multiple linear correlations, it can be implemented optically with a joint transform correlator.
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Pascuala Garcia-Martinez, Pascuala Garcia-Martinez, Henri H. Arsenault, Henri H. Arsenault, Carlos Ferreira, Carlos Ferreira, } "Binary image decomposition for intensity-invariant optical nonlinear correlations", Proc. SPIE 4089, Optics in Computing 2000, (24 May 2000); doi: 10.1117/12.386860; https://doi.org/10.1117/12.386860
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