LorenzPoincareMap ( int order, interval _sigma, interval _rho, interval _beta )
: section("var:x,y,z;fun:z;"), // the section is z=0
vectorField("par:b,r,s;var:x,y,z;fun:s*(y-x),(r-z)*x-y,x*y-b*z;"), // here is the vector field
solver(vectorField,order,0.1), // 0.1 is the time step, ignored since step control is turned on by default
// MinusPlus means that the section is crossed with 'z' changing
// sign from minus to plus Other acceptable values are PlusMinus
// and None. The last means both directions are acceptable. This will probably have to be changed to None.
pm(solver,section,poincare::MinusPlus)
{
// set parameter values a and b
vectorField.setParameter("b",_beta);
vectorField.setParameter("r",_rho);
vectorField.setParameter("s",_sigma);
}
RosslerPoincareMap (int order, interval _a, interval _b)
: section("var:x,y,z;fun:x;"), // the section is x=0
vectorField("par:a,b;var:x,y,z;fun:-(y+z),x+b*y,b+z*(x-a);"), // here is the vector field
solver(vectorField,order,0.1), // 0.1 is the time step, ignored since step control is turned on by default
pm(solver,section,poincare::MinusPlus) // MinusPlus means that the section is crossed with 'x' changing sign from minus to plus
// Other acceptable values are PlusMinus and None. The last means both directions are acceptable.
{
// set parameter values a and b
vectorField.setParameter("a",_a);
vectorField.setParameter("b",_b);
}
