Kunita–Watanabe inequality

In stochastic calculus, the Kunita–Watanabe inequality is a generalization of the Cauchy–Schwarz inequality to integrals of stochastic processes. It was first obtained by Hiroshi Kunita and Shinzo Watanabe and plays a fundamental role in their extension of Ito's stochastic integral to square-integrable martingales.^[1]

Statement of the theorem

Let M, N be continuous local martingales and H, K measurable processes. Then

[math]\displaystyle{ \int_0^t \left| H_s \right| \left| K_s \right| \left| \mathrm{d} \langle M,N \rangle_s \right| \leq \sqrt{\int_0^t H_s^2 \,\mathrm{d} \langle M \rangle_s} \sqrt{\int_0^t K_s^2 \,\mathrm{d} \langle N \rangle_s} }[/math]

where the angled brackets indicates the quadratic variation and quadratic covariation operators. The integrals are understood in the Lebesgue–Stieltjes sense.

References

• Rogers, L. C. G.; Williams, D. (1987). Diffusions, Markov Processes and Martingales. II, Itô; Calculus. Cambridge University Press. p. 50. doi:10.1017/CBO9780511805141. ISBN 0-521-77593-0. https://books.google.com/books?id=bDQy-zoHWfcC&pg=PA50. 

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