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D.5.10.4 parametrizeOrbit

Procedure from library orbitparam.lib (see orbitparam_lib).

Usage:
parametrizeOrbit(L,v); L list, v matrix.

Assume:
L is a list of strictly upper triangular n x n matrices of same size. The vector space <L> genererated by the elements of L should be closed under the Lie bracket.
v is matrix of constants of size n x 1.
The basering has at least size(L) variables. However we will only use tangentGens(L,v)[1] many of them.

Return:
list, with four entries
- int, dimension of the orbit
- matrix A over the basering giving a parametrization of the orbit of v under the action of exp(<L>).
- list of integers, with the (row)-indices of entries which can be deleted by the action
- the variables of the parametrization to solve for

Theory:
We apply the theorem of Chevalley-Rosenlicht. First we determine tangent space generators, then apply matrixExp to the generators, and finally take the product to obtain the parametrization.

Example:
 
LIB "orbitparam.lib";
ring R = 0,(t(1..3)),dp;
matrix L1[3][3] = 0,1,0, 0,0,0, 0,0,0;
matrix L2[3][3] = 0,0,1, 0,0,0, 0,0,0;
matrix L3[3][3] = 0,1,1, 0,0,1, 0,0,0;
list L = L1,L2,L3;
matrix v[3][1] = 1,2,3;
parametrizeOrbit(L,v);
==> [1]:
==>    2
==> [2]:
==>    _[1,1]=1/6*t(1)^2+5/3*t(1)+t(2)+1
==>    _[2,1]=t(1)+2
==>    _[3,1]=3
==> [3]:
==>    [1]:
==>       2
==>    [2]:
==>       1
==> [4]:
==>    [1]:
==>       t(1)
==>    [2]:
==>       t(2)
ring R1 = 0,(t(1..2)),dp;
matrix L1[4][4] = 0,1,0,0, 0,0,0,0, 0,0,0,1, 0,0,0,0;
matrix L2[4][4] = 0,0,1,0, 0,0,0,1, 0,0,0,0, 0,0,0,0;
list L = L1,L2;
matrix v[4][1] = 1,2,3,4;
parametrizeOrbit(L,v);
==> [1]:
==>    2
==> [2]:
==>    _[1,1]=1/4*t(1)*t(2)+1/2*t(1)+3/4*t(2)+1
==>    _[2,1]=t(2)+2
==>    _[3,1]=t(1)+3
==>    _[4,1]=4
==> [3]:
==>    [1]:
==>       3
==>    [2]:
==>       2
==> [4]:
==>    [1]:
==>       t(1)
==>    [2]:
==>       t(2)


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