Title :
Model-based recognition of planar objects using geometric invariants
Author :
Sossa, Humberto ; Palomino, Amparo
Author_Institution :
Centro Nacional de Calculo-IPN, Mexico City, Mexico
Abstract :
We address the problem of recognizing possibly occluded planar objects from an arbitrary viewpoint. The primitives used either to obtain models or to recognize the planar shapes are the so called metasegments. These are groups of consecutive segments obtained from the corners of the objects´ contours. From these groups of segments a set of geometric invariants: two new (the type and the subtype), and two well known (the four and the five point dependent affine/projective invariants used by Lai (see Journal of the Chinese Institute of Engineers, vol.17, no.2, p.249-57, 1994) and by Rothwell et al. (1991)) are first calculated and then entered into a database. This provides the essential mechanism of searching. These invariants (combined as a key) are then used first to build the database of models and second to extract from the model database those models possibly present in a test image. A voting and thresholding mechanism is finally used to decide which objects are present in the scene. The system´s performance is tested with a set of polygonal objects
Keywords :
edge detection; feature extraction; image representation; image segmentation; object recognition; affine/projective invariants; contours; geometric invariants; metasegments; model database; model-based recognition; object representation; occluded planar objects; planar shape recognition; polygonal objects; primitives; searching; system performance; test image; thresholding mechanism; voting mechanism; Computer vision; Image databases; Image recognition; Image segmentation; Layout; Shape; Solid modeling; Spatial databases; System testing; Voting;
Conference_Titel :
Image Processing, 1996. Proceedings., International Conference on
Conference_Location :
Lausanne
Print_ISBN :
0-7803-3259-8
DOI :
10.1109/ICIP.1996.560567
