A contour-based part segmentation algorithm
M Bennamoun, B Boashash - IEICE TRANSACTIONS on …, 1997 - search.ieice.org
Within the framework of a previously proposed vision system, a new part-segmentation
algorithm, that breaks an object defined by its contour into its constituent parts, is presented.
The contour is assumed to be obtained using an edge detector. This decomposition is
achieved in two stages. The first stage is a preprocessing step which consists of extracting
the convex dominant points (CDPs) of the contour. For this aim, we present a new technique
which relaxes the compromise that exists in most classical methods for the selection of the …
algorithm, that breaks an object defined by its contour into its constituent parts, is presented.
The contour is assumed to be obtained using an edge detector. This decomposition is
achieved in two stages. The first stage is a preprocessing step which consists of extracting
the convex dominant points (CDPs) of the contour. For this aim, we present a new technique
which relaxes the compromise that exists in most classical methods for the selection of the …
A Contour-Based Part Segmentation Algorithm
B Mohammed, B Boualem - IEICE transactions on fundamentals of …, 1997 - cir.nii.ac.jp
抄録 Within the framework of a previously proposed vision system, a new part-segmentation
algorithm, that breaks an object defined by its contour into its constituent parts, is presented.
The contour is assumed to be obtained using an edge detector. This decomposition is
achieved in two stages. The first stage is a preprocessing step which consists of extracting
the convex dominant points (CDPs) of the contour. For this aim, we present a new technique
which relaxes the compromise that exists in most classical methods for the selection of the …
algorithm, that breaks an object defined by its contour into its constituent parts, is presented.
The contour is assumed to be obtained using an edge detector. This decomposition is
achieved in two stages. The first stage is a preprocessing step which consists of extracting
the convex dominant points (CDPs) of the contour. For this aim, we present a new technique
which relaxes the compromise that exists in most classical methods for the selection of the …
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