Fractal derivative: Difference between revisions

Latest revision as of 05:23, 2 October 2013

In probability theory, the minimal-entropy martingale measure (MEMM) is the risk-neutral probability measure that minimises the entropy difference between the objective probability measure, $P$ , and the risk-neutral measure, $Q$ . In incomplete markets, this is one way of choosing a risk-neutral measure (from the infinite number available) so as to still maintain the no-arbitrage conditions.

The MEMM has the advantage that the measure $Q$ will always be equivalent to the measure $P$ by construction. Another common choice of equivalent martingale measure is the minimal martingale measure, which minimises the variance of the equivalent martingale. For certain situations, the resultant measure $Q$ will not be equivalent to $P$ .

In a finite probability model, for objective probabilities $p_{i}$ and risk-neutral probabilities $q_{i}$ then one must minimise the Kullback–Leibler divergence $D_{KL}(Q\|P)=\sum _{i=1}^{N}q_{i}\ln \left({\frac {q_{i}}{p_{i}}}\right)$ subject to the requirement that the expected return is $r$ , where $r$ is the risk-free rate.

References

M. Frittelli, Minimal Entropy Criterion for Pricing in One Period Incomplete Markets, Working Paper. University of Brescia, Italy (1995).

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+In [[probability theory]], the '''minimal-entropy martingale measure (MEMM)''' is the risk-neutral probability measure that minimises the [[entropy]] difference between the objective probability measure, <math>P</math>, and the risk-neutral measure, <math>Q</math>. In [[incomplete market]]s, this is one way of choosing a [[risk-neutral measure]] (from the infinite number available) so as to still maintain the no-arbitrage conditions.
+The MEMM has the advantage that the measure <math>Q</math> will always be equivalent to the measure <math>P</math> by construction. Another common choice of equivalent [[martingale measure]] is the minimal martingale measure, which minimises the variance of the equivalent [[martingale (probability theory)|martingale]]. For certain situations, the resultant measure <math>Q</math> will not be equivalent to <math>P</math>.
+In a finite probability model, for objective probabilities <math>p_i</math> and risk-neutral probabilities <math>q_i</math> then one must minimise the [[Kullback–Leibler divergence]] <math>D_{KL}(Q\|P) = \sum_{i=1}^N q_i \ln\left(\frac{q_i}{p_i}\right)</math> subject to the requirement that the expected return is <math>r</math>, where <math>r</math> is the risk-free rate.
+== References ==
+* M. Frittelli, Minimal Entropy Criterion for Pricing in One Period Incomplete Markets, Working Paper. University of Brescia, Italy (1995).
+[[Category:Stochastic processes]]
+[[Category:Martingale theory]]
+[[Category:Game theory]]

Fractal derivative: Difference between revisions

Latest revision as of 05:23, 2 October 2013

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