Title :
Quartic discriminants and tensor invariants
Abstract :
Discusses the calculation of discriminants of polynomials. The discriminant is a function of the coefficients that indicates if the polynomial has any double roots. The discriminant Δ4 of a homogeneous quartic f(x,w) = Ax4+4Bx3w+6Cx2 w2+4Dxw3+Ew4 = 0 is Δ4 = 27(I3)2-(I2)3, where I2 = AE-4BD+3C2 and I3 = ACE-AD 2-B2E+2BCD-C3 (this is the Hilbert representation). The author shows how to write the discriminant as a tensor diagram. The discriminant of a polynomial is an example of an invariant quantity. Tensor diagrams are particularly useful to express invariant quantities. Adding a dimension moves us from the world of (1D) homogeneous polynomials to 2D homogeneous (2DH) geometry (curves in the projective plane). It is shown that a relationship exists between the possible root structures of a 4th-order polynomial and the possible degeneracies of a 3rd-order curve
Keywords :
diagrams; geometry; invariance; polynomials; tensors; 2D homogeneous geometry; 3rd-order curve degeneracies; 4th-order polynomial root structures; Hilbert representation; curves; double roots; polynomial discriminants; projective plane; quartic discriminants; tensor diagram; tensor invariants; Algebra; Hypercubes; Polynomials; Tensile stress; Terminology; Writing;
Journal_Title :
Computer Graphics and Applications, IEEE
