ApCoCoA-1:NC.Intersection
From ApCoCoAWiki
Revision as of 13:34, 29 October 2020 by AndraschkoBot (talk | contribs) (replaced <quotes> tag by real quotes)
This article is about a function from ApCoCoA-1. |
NC.Intersection
Intersection of two finitely generated two-sided ideals in a non-commutative polynomial ring.
Syntax
Description
Proposition (Intersection of Two Ideals): Let G_I and G_J be two sets of non-zero polynomials in the non-commutative polynomial ring K<x[1],...,x[n]>, and let I and J be two ideals generated by G_I and G_J, respectively. We choose a new indeterminate y, and form the free monoid ring K<y,x[1],...,x[n]>. Furthermore, let N be the ideal generated by the union of {yf: f in G_I} and {(1-y)g: g in G_J}, and let C be the ideal generated by the set {yx[1]-x[1]y,...,yx[n]-x[n]y} of commutators. Then we have the intersection of I and J is equal to the intersection of N+C and K<x[1],...,x[n]>.
Example
-- Let I be the ideal generated by G_I={xy+z,yz+x}, and J be the ideal generated by G_J={yz+x, zx+y}. -- We compute the intersection of I and J as follows. Use QQ[t,x,y,z]; NC.SetOrdering("ELIM"); -- Choose an elimination word ordering for t F1 := [[x,y], [z]]; -- xy+z F2 := [[y,z], [x]]; -- yz+x G1 := [[y,z], [x]]; -- yz+x G2 := [[z,x], [y]]; -- zx+y N:=[NC.Mul([[t]],F1), NC.Mul([[t]],F2)]; -- t*F1, t*F2 N:=Concat(N,[NC.Mul([[1],[-t]],G1), NC.Mul([[1],[-t]],G2)]); -- (1-t)*G1, (1-t)*G2 C:=[[[t,x],[-x,t]], [[t,y],[-y,t]], [[t,z],[-z,t]]]; -- set of commutators G:=Concat(N,C); Gb:=NC.GB(G,31,1,20,50); -- Done. ------------------------------- The following information printed by the ApCoCoAServer shows that Gb it is a partial Groebner basis. the number of unselected generators: 0 the number of unselected obstructions: 81 the procedure is interrupted by loop bound! the total number of obstructions: 293 the number of selected obstructions: 43 the number of obstructions detected by Criterion M: 128 the number of obstructions detected by Criterion F: 0 the number of obstructions detected by Tail Reduction: 0 the number of obstructions detected by Criterion Bk: 41 the number of redundant generators: 5 It is a partial Groebner basis.
See also