Routh–Hurwitz theorem

In mathematics, the Routh–Hurwitz theorem gives a test to determine whether all roots of a given polynomial lie in the left half-plane. Polynomials with this property are called Hurwitz-stable. The Routh–Hurwitz theorem was proved in 1895, and it was named after Edward John Routh and Adolf Hurwitz. It is used in the Routh–Hurwitz stability criterion.

Notations

Let f(z) be a polynomial (with complex coefficients) of degree n with no roots on the imaginary line (i.e. the line Z = ic where i is the imaginary unit and c is a real number). Let us define P_0(y) (a polynomial of degree n) and P_1(y) (a nonzero polynomial of degree strictly less than n) by f(iy)=P_0(y)+iP_1(y), respectively the real and imaginary parts of f on the imaginary line.

Furthermore, let us denote by:

Statement

With the notations introduced above, the Routh–Hurwitz theorem states that:

p-q=\frac{1}{\pi}\Delta\arg f(iy)= \left.\begin{cases} +I_{-\infty}^{+\infty}\frac{P_0(y)}{P_1(y)} & \text{for odd degree} \\[10pt] -I_{-\infty}^{+\infty}\frac{P_1(y)}{P_0(y)} & \text{for even degree} \end{cases}\right\} = w(+\infty)-w(-\infty).

From the first equality we can for instance conclude that when the variation of the argument of f(iy) is positive, then f(z) will have more roots to the left of the imaginary axis than to its right. The equality p  q = w(+)  w() can be viewed as the complex counterpart of Sturm's theorem. Note the differences: in Sturm's theorem, the left member is p + q and the w from the right member is the number of variations of a Sturm chain (while w refers to a generalized Sturm chain in the present theorem).

Routh–Hurwitz stability criterion

We can easily determine a stability criterion using this theorem as it is trivial that f(z) is Hurwitz-stable iff p  q = n. We thus obtain conditions on the coefficients of f(z) by imposing w(+) = n and w() = 0.

References

External links

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