Title :
Compact object recognition using energy-function-based optimization
Author :
Friedland, N.S. ; Rosenfeld, Azriel
Author_Institution :
Center for Autom. Res., Maryland Univ., College Park, MD, USA
fDate :
7/1/1992 12:00:00 AM
Abstract :
Describes a method of recognizing objects whose contours can be represented in smoothly varying polar coordinate form. Both low- and high-level information about the object (contour smoothness and edge sharpness at the low level and contour shape at the high level) are incorporated into a single energy function that defines a 1D, cyclic, Markov random field (1DCMRF). This 1DCMRF is based on a polar coordinate object representation whose center can be initialized at any location within the object. The recognition process is based on energy function minimization, which is implemented by simulated annealing
Keywords :
Markov processes; pattern recognition; simulated annealing; 1D cyclic Markov random field; contour smoothness; edge sharpness; energy-function-based optimization; pattern recognition; polar coordinate; simulated annealing; Active contours; Humans; Information theory; Markov random fields; Minimization methods; Object detection; Object recognition; Optimization methods; Shape; Simulated annealing;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
