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The Kolmogorov backward equation (KBE) (diffusion) and its adjoint sometimes known as the Kolmogorov forward equation (diffusion) are partial differential equations (PDE) that arise in the theory of continuous-time continuous-state Markov processes. Both were published by Andrey Kolmogorov in 1931.[1] Later it was realized that the forward equation was already known to physicists under the name Fokker–Planck equation; the KBE on the other hand was new.

Informally, the Kolmogorov forward equation addresses the following problem. We have information about the state x of the system at time t (namely a probability distribution pt(x)); we want to know the probability distribution of the state at a later time s>t. The adjective 'forward' refers to the fact that pt(x) serves as the initial condition and the PDE is integrated forward in time. (In the common case where the initial state is known exactly pt(x) is a Dirac delta function centered on the known initial state).

The Kolmogorov backward equation on the other hand is useful when we are interested at time t in whether at a future time s the system will be in a given subset of states B, sometimes called the target set. The target is described by a given function us(x) which is equal to 1 if state x is in the target set at time s, and zero otherwise. In other words, us(x)=1B, the indicator function for the set B. We want to know for every state x at time t,(t<s) what is the probability of ending up in the target set at time s (sometimes called the hit probability). In this case us(x) serves as the final condition of the PDE, which is integrated backward in time, from s to t.

Formulating the Kolmogorov backward equation

Assume that the system state x(t) evolves according to the stochastic differential equation

dx(t)=μ(x(t),t)dt+σ(x(t),t)dW(t)

then the Kolmogorov backward equation is as follows [2]

tp(x,t)=μ(x,t)xp(x,t)+12σ2(x,t)2x2p(x,t)

for ts, subject to the final condition p(x,s)=us(x). This can be derived using Itō's lemma on p(x,t) and setting the dt term equal to zero.

This equation can also be derived from the Feynman-Kac formula by noting that the hit probability is the same as the expected value of us(x) over all paths that originate from state x at time t:

P(XsBXt=x)=E[us(x)Xt=x]

Historically of course the KBE [1] was developed before the Feynman-Kac formula (1949).

Formulating the Kolmogorov forward equation

With the same notation as before, the corresponding Kolmogorov forward equation is:

sp(x,s)=x[μ(x,s)p(x,s)]+122x2[σ2(x,s)p(x,s)]

for st, with initial condition p(x,t)=pt(x). For more on this equation see Fokker–Planck equation.

Template:More footnotes

References

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it:Equazione retrospettiva di Kolmogorov

  1. 1.0 1.1 Andrei Kolmogorov, "Über die analytischen Methoden in der Wahrscheinlichkeitsrechnung" (On Analytical Methods in the Theory of Probability), 1931, [1] Cite error: Invalid <ref> tag; name "k31" defined multiple times with different content
  2. Risken, H., "The Fokker-Planck equation: Methods of solution and applications" 1996, Springer