Computer vision faces the challenge of exploiting the CAD models available for many manufactured objects. Recently, a variety of new algorithms have been developed that rely on symbolic object representations for recognizing curved three-dimensional objects from images. This paper presents a modeling system for constructing these representations from parametric and implicit algebraic surface specifications. A combination of homotopy continuation and curve tracing is used to compute set operations. Specifically, an algorithm for tracing curves defined implicitly in IR$+n$PLU@1$/ by n polynomial equations in n $PLU 1 variables is presented that correctly characterizes the topology of the intersection curves and respects singular points. The curve tracing algorithm is also used to render line drawings for which parametric representations of occluding contours are unavailable. Hidden lines are easily removed by explicitly constructing an image structure graph of the smooth curve branches and singular points; it is then sufficient to trace a ray at a single point on each curve branch. A preliminary parallel implementation, distributed over a network of SPARC stations, appears promising. For objects modeled by this system algorithms for constructing their aspect graph, computing their stable poses, and recognizing them in different types of images have been developed.
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机译:计算机愿景面临利用可用于许多制造物体的CAD型号的挑战。最近,已经开发了各种新算法,其依赖于符号对象表示来识别来自图像的弯曲的三维对象。本文介绍了用于构造来自参数和隐式代数规格的这些表示的建模系统。同型延续和曲线跟踪的组合用于计算设置操作。具体地,提出了一种用于在N $ PLU 1变量中的IR $ + N $ PLU @ 1 $ / BY N多项式方程中隐式定义的追踪曲线的算法,其正确地表征了交叉点曲线的拓扑并尊重奇点。曲线跟踪算法还用于呈现线图,用于遮挡轮廓的参数表示不可用。通过明确构建平滑曲线分支和奇点的图像结构图,轻松消除隐线。然后,足以在每个曲线分支上的单点追踪光线。初步并行实现,分布在SPARC站网络上,看起来很有希望。对于该系统算法建模的对象,用于构建其方面图,已经开发了计算其稳定的姿势并以不同类型的图像识别它们。
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