Digitization scheme that assures faithful reconstruction of plane figures
作者:
Highlights:
•
摘要
In the present extensive work, we propose a digitization scheme for a broad class of plane figures. It includes arbitrary polygons (possibly, non-convex and with holes) and plane sets whose boundary consists of smooth curves or straight segments. Our approach is based on an appropriate scaling of the original continuous real object so that the obtained magnified object and its (appropriately constructed) digitization feature analogous geometric properties. As a bi-product of the presented theory we prove the strong NP-hardness of the problem of obtaining an optimal (i.e., with a minimal number of facets) polyhedral reconstruction in which the facets are trapezoids or triangles. This result implies the strong NP-hardness of the general polyhedral reconstruction problem, which was a long-standing open problem. As another major result, we show that the proposed digitization scheme allows faithful reconstruction of plane figures from the considered general class. The reconstructed set features the basic properties of the original object, such as location of curve and straight segments and inflection points of its boundary.
论文关键词:Digital geometry,Lattice polygon,Scaling factor,Polyhedral reconstruction,NP-hard problem,Object reconstruction
论文评审过程:Received 19 July 2008, Revised 29 November 2008, Accepted 6 December 2008, Available online 24 December 2008.
论文官网地址:https://doi.org/10.1016/j.patcog.2008.12.002