论文信息 - Effective Methods in Computational Synthetic Geometry

Effective Methods in Computational Synthetic Geometry

We discuss algorithmic steps when dealing with realizability problems in discrete geometry, especially that of finding realizations for a given oriented matroid. After a brief introduction to known methods, we discuss a dynamic inductive realization method, which has proven successful when other methods did not succeed. A useful theorem in this context in the rank 3 case asserts that a one-element extension of a uniform rank 3 oriented matroid depends essentially just on the mutations involving that element. There are problems in computational synthetic geometry of course, where intuition must help. In this context we mention the application of the software Cinderella to automated deduction in computational synthetic geometry, when studying face lattices of polytopes.

Jürgen Bokowski

[1] N. Mnev. The universality theorems on the classification problem of configuration varieties and convex polytopes varieties , 1988 .

[2] B. Grünbaum. Arrangements and Spreads , 1972 .

[3] Amos Altshuler,et al. Spatial polyhedra without diagonals , 1994 .

[4] B. Sturmfels. Oriented Matroids , 1993 .

[5] Jürgen Bokowski,et al. ON A SELF DUAL 3-SPHERE OF PETER MCMULLEN , 2000 .

[6] António Guedes de Oliveira,et al. On the Generation of Oriented Matroids , 2000, Discret. Comput. Geom..

[7] B. Sturmfels. Computational Synthetic Geometry , 1989 .

[8] Jörg M. Wills,et al. Handbook of Convex Geometry , 1993 .

[9] Jürgen Richter,et al. On the Finding of Final Polynomials , 1990, Eur. J. Comb..

[10] Bernd Sturmfels,et al. Arrangements of lines and pseudolines without adjacent triangles , 1989, J. Comb. Theory, Ser. A.

[11] Bernd Sturmfels,et al. On the coordinatization of oriented matroids , 1986, Discret. Comput. Geom..

[12] Jürgen Richter-Gebert. Realization Spaces of Polytopes , 1996 .