Lee R. Nackman scite author profile

Many fundamental tests performed by geometric algorithms can be formulated in terms of finding the sign of a determinant. When these tests are implemented using fixed-precision arithmetic such es floating point, they can produce incorrect answers; when they are implemented using arbitraryprecision arithmetic, they are expensive to compute. We present adaptive-precision algorithms for finding the signs of determinant of matrices with integer and rational elements. These algorithms were developed and tested by integrating them into the Guibas-Stolfi Delaunay triangulation algorithm. Through a combination of algorithm design and careful engineering of the implementation, the resulting program can triangulate a set of random rational points in the unit circle only four to five times slower than can a floating-point implementation of the algorithm. The algorithms, engineering process, and software tools developed are described.

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Voronoi diagram for multiply-connected polygonal domains I: Algorithm

Srinivasan

Nackman

1987

IBM J. Res. & Dev.

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Automatic mesh generation using the symmetric axis transformation of polygonal domains

et al. 1992

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Curvature relations in three-dimensional symmetric axes

Nackman¹

1982

Computer Graphics and Image Processing

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Finding compact coordinate representations for polygons and polyhedra

Milenkovic

Nackman

1990

IBM J. Res. & Dev.

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Lee R. Nackman

Efficient Delaunay triangulation using rational arithmetic

Voronoi diagram for multiply-connected polygonal domains I: Algorithm

Automatic mesh generation using the symmetric axis transformation of polygonal domains

Curvature relations in three-dimensional symmetric axes

Finding compact coordinate representations for polygons and polyhedra

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