3D Interpretation of Conics and Orthogonality

CVGIP: Image Understanding Pub Date : 1993-11-01 DOI:10.1006/ciun.1993.1043
Kanatani K., Liu W.
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引用次数: 77

Abstract

Computational techniques involving conics are formulated in the framework of projective geometry, and basic notions of projective geometry such as poles, polars, and conjugate pairs are reformulated as "computational procedures" with special emphasis on computational aspects. It is shown that the 3D geometry of three orthogonal lines can be interpreted by computing conics. We then describe an analytical procedure for computing the 3D geometry of a conic of a known shape from its projection. Real image examples are also given.

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圆锥曲线和正交的三维解释
涉及二次曲线的计算技术在射影几何的框架中被公式化,射影几何的基本概念,如极点、极点和共轭对被重新公式化为“计算过程”,特别强调计算方面。证明了三条正交直线的三维几何可以用计算二次曲线来解释。然后,我们描述了从已知形状的圆锥曲线的投影计算其三维几何形状的解析过程。并给出了实像实例。
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CVGIP: Image Understanding
CVGIP: Image Understanding
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