Kramkov's optional decomposition theorem

In probability theory, Kramkov's optional decomposition theorem (or just optional decomposition theorem) is a mathematical theorem on the decomposition of a positive supermartingale $V$ with respect to a family of equivalent martingale measures into the form

V_{t}=V_{0}+(H\cdot X)_{t}-C_{t},\quad t\geq 0,

where $C$ is an adapted (or optional) process.

The theorem is of particular interest for financial mathematics, where the interpretation is: $V$ is the wealth process of a trader, $(H\cdot X)$ is the gain/loss and $C$ the consumption process.

The theorem was proven in 1994 by Russian mathematician Dmitry Kramkov.^[1] The theorem is named after the Doob-Meyer decomposition but unlike there, the process $C$ is no longer predictable but only adapted (which, under the condition of the statement, is the same as dealing with an optional process).

Kramkov's optional decomposition theorem[edit]

Let $(\Omega ,{\mathcal {A}},\{{\mathcal {F}}_{t}\},P)$ be a filtered probability space with the filtration satisfying the usual conditions.

A $d$ -dimensional process $X=(X^{1},\dots ,X^{d})$ is locally bounded if there exist a sequence of stopping times $(\tau _{n})_{n\geq 1}$ such that $\tau _{n}\to \infty$ almost surely if $n\to \infty$ and $|X_{t}^{i}|\leq n$ for $1\leq i\leq d$ and $t\leq \tau _{n}$ .

Statement[edit]

Let $X=(X^{1},\dots ,X^{d})$ be $d$ -dimensional càdlàg (or RCLL) process that is locally bounded. Let $M(X)\neq \emptyset$ be the space of equivalent local martingale measures for $X$ and without loss of generality let us assume $P\in M(X)$ .

Let $V$ be a positive stochastic process then $V$ is a $Q$ -supermartingale for each $Q\in M(X)$ if and only if there exist an $X$ -integrable and predictable process $H$ and an adapted increasing process $C$ such that

V_{t}=V_{0}+(H\cdot X)_{t}-C_{t},\quad t\geq 0.

^[2]^[3]

Commentary[edit]

The statement is still true under change of measure to an equivalent measure.

References[edit]

^ Kramkov, Dimitri O. (1996). "Optional decomposition of supermartingales and hedging contingent claims in incomplete security markets". Probability Theory and Related Fields. 105: 459–479. doi:10.1007/BF01191909.
^ Kramkov, Dimitri O. (1996). "Optional decomposition of supermartingales and hedging contingent claims in incomplete security markets". Probability Theory and Related Fields. 105: 461. doi:10.1007/BF01191909.
^ Delbaen, Freddy; Schachermayer, Walter (2006). The Mathematics of Arbitrage. Heidelberg: Springer Berlin. p. 31.

[1] Kramkov, Dimitri O. (1996). "Optional decomposition of supermartingales and hedging contingent claims in incomplete security markets". Probability Theory and Related Fields. 105: 459–479. doi:10.1007/BF01191909.

[2] Kramkov, Dimitri O. (1996). "Optional decomposition of supermartingales and hedging contingent claims in incomplete security markets". Probability Theory and Related Fields. 105: 461. doi:10.1007/BF01191909.

[3] Delbaen, Freddy; Schachermayer, Walter (2006). The Mathematics of Arbitrage. Heidelberg: Springer Berlin. p. 31.

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