Tracking moving objects with co-evolutionary snakes
International Symposium on VIPromCom Video/Image Processing and Multimedia Communications - Trang 325-332
Tóm tắt
A new symbiotic genetic algorithm (SGA) based active contour model (snake) is proposed to track the B-spline contour of obstacles. It exploits the local control properties of the B-spline to decompose the contour into subcontours and optimizes each subcontour in separate genetic algorithms (GA). Unlike the GA-based snake, an SGA snake can track the obstacle's outline more robustly. Application-specific inter-population genetic operators are introduced to reinforce the symbiotic relationship via migration of genetic material. The use of symbiosis dramatically reduces the combinatorics of the search space, when compared to GAs. Results of tracking objects in real road scenarios demonstrate its robustness to noise and stability of convergence when compared to its GA counterpart.
Từ khóa
#Spline #Genetic algorithms #Symbiosis #Active contours #Deformable models #Shape control #Noise robustness #Robust stability #Control system synthesis #Combinatorial mathematicsTài liệu tham khảo
seo, 1998, Active and Robust Contour Extraction by Biphased Genetic Algorithm, IEICE Transaction on Information and Systems, 1225
10.1109/ISCAS.1998.698801
ooi, 2000, Critical Points Detection Using Genetic Algorithms, ELMAR International Workshop on Video Processing and Multimedia Communications, 169
10.1016/S0031-3203(96)00074-X
10.1016/0167-8655(95)00015-9
de jong, 1995, Evolving Complex Structures via Co-operative Coevolution, 4th Conference in Evolutionary Programming, 307
10.1016/S0734-189X(86)80047-0
10.1109/34.57681
michalewicz, 1992, Evolution Programs, Genetic Algorihtms + Data Structures
kass, 1987, Snakes: Active Contour Models, 1st Int Conf Computer Vision, 259