Buradasınız

Theory of algebraic functions on the Riemann Sphere

Journal Name:

Publication Year:

Author Name
Abstract (2. Language): 
The Riemann sphere (S) is defined as the complex plane together with the point at infinity. Algebraic functions are defined as subsets of S × S such that a bivariate polynomial on S is zero. It is shown that the set of algebraic functions is closed under addition, multiplication, composition, inversion, union, and differentiation. Singular points are defined as points where the function is not locally 1 to 1. A general method is given for calculating the singular point parameters i.e. a topological winding number ratio, a strength coefficient, and location in S × S, and it is argued that the topology of an algebraic function de- pends only on the winding number ratios of all its singular points. After showing how most of these singular point parameters can be calculated under the closure operations and that a function without singular points is linear, it follows that the set of all quadruples of singular point pa- rameters uniquely determine an algebraic function.
83-101

REFERENCES

References: 

[1] Buchberger, BrunoGr¨obner Bases: A Short Introduction for Systems Theorists
Research Institute for Symbolic Computation University of Linz,
A4232 Schloss Hagenberg, Austria Buchberger@RISC.Uni.Linz.ac.at
http://www.risc.uni-linz.ac.at/people/buchberg/papers/2001-02-19-A.pdf
[2] Yap, Chee Keng , Fundamental problems in Algorithmic Algebra Oxford
University Press,2000

Thank you for copying data from http://www.arastirmax.com