In the stochastic calculus, Tanaka's formula for the Brownian motion states that
where Bt is the standard Brownian motion, sgn denotes the sign function
and Lt is its local time at 0 (the local time spent by B at 0 before time t) given by the L2-limit
One can also extend the formula to semimartingales.
Properties
editTanaka's formula is the explicit Doob–Meyer decomposition of the submartingale |Bt| into the martingale part (the integral on the right-hand side, which is a Brownian motion[1]), and a continuous increasing process (local time). It can also be seen as the analogue of Itō's lemma for the (nonsmooth) absolute value function , with and ; see local time for a formal explanation of the Itō term.
Outline of proof
editThe function |x| is not C2 in x at x = 0, so we cannot apply Itō's formula directly. But if we approximate it near zero (i.e. in [−ε, ε]) by parabolas
and use Itō's formula, we can then take the limit as ε → 0, leading to Tanaka's formula.
References
edit- ^ Rogers, L.G.C. "I.14". Diffusions, Markov Processes and Martingales: Volume 1, Foundations. p. 30.
- Øksendal, Bernt K. (2003). Stochastic Differential Equations: An Introduction with Applications (Sixth ed.). Berlin: Springer. ISBN 3-540-04758-1. (Example 5.3.2)
- Shiryaev, Albert N.; trans. N. Kruzhilin (1999). Essentials of stochastic finance: Facts, models, theory. Advanced Series on Statistical Science & Applied Probability No. 3. River Edge, NJ: World Scientific Publishing Co. Inc. ISBN 981-02-3605-0.