Entropic risk measure explained

In financial mathematics (concerned with mathematical modeling of financial markets), the entropic risk measure is a risk measure which depends on the risk aversion of the user through the exponential utility function. It is a possible alternative to other risk measures as value-at-risk or expected shortfall.

It is a theoretically interesting measure because it provides different risk values for different individuals whose attitudes toward risk may differ. However, in practice it would be difficult to use since quantifying the risk aversion for an individual is difficult to do. The entropic risk measure is the prime example of a convex risk measure which is not coherent.^[1] Given the connection to utility functions, it can be used in utility maximization problems.

Mathematical definition

The entropic risk measure with the risk aversion parameter

\theta>0

is defined as

\rho^ent(X)=

	1
	\theta

log\left(E[e^-\theta]\right)=\sup_Q_1}\left\{E^Q[-X]-

	1
	\theta

H(Q|P)\right\}

^[2] where

H(Q|P)=E\left[

	dQ	log
	dP

	dQ
	dP

\right]

is the relative entropy of Q << P.^[3]

Acceptance set

The acceptance set for the entropic risk measure is the set of payoffs with positive expected utility. That is

A=\{X\inL^{p(l{F}):E[u(X)]}\geq0\}=\{X\inL^{p(l{F}):E\left[e}^-\theta\right]\leq1\}

where

u(X)

is the exponential utility function.

Dynamic entropic risk measure

The conditional risk measure associated with dynamic entropic risk with risk aversion parameter

\theta

is given by

	ent
\rho
	t(X)

	1
	\theta

log\left(E[e^-\theta|l{F}_t]\right).

This is a time consistent risk measure if

\theta

is constant through time,^[4] and can be computed efficiently using forward-backwards differential equations^[5] ^[6] .

Notes and References

Rudloff . Birgit . Sass . Jorn . Wunderlich . Ralf . July 21, 2008 . Entropic Risk Constraints for Utility Maximization . July 22, 2010 . dead . https://web.archive.org/web/20121018205712/http://www.princeton.edu/~brudloff/RudloffSassWunderlich08.pdf . October 18, 2012 .
Book: Hans. Föllmer. Alexander. Schied. Stochastic finance: an introduction in discrete time. limited. Walter de Gruyter. 2004. 2. 978-3-11-018346-7. 174.
Follmer. Hans. Schied. Alexander. October 8, 2008. Convex and Coherent Risk Measures. July 22, 2010.
Penner . Irina . 2007 . Dynamic convex risk measures: time consistency, prudence, and sustainability . February 3, 2011 . dead . https://web.archive.org/web/20110719042923/http://wws.mathematik.hu-berlin.de/~penner/penner.pdf . July 19, 2011 .
Hyndman . Cody . Kratsios . Anastasis . Wang . Renjie . 2020 . The entropic measure transform. Canadian Journal of Statistics . 48 . 97–129 . 10.1002/cjs.11537 . 1511.06032 . 159089174 . pdf.
Chong . Wing Fung . Hu . Ying . Liang . Gechun . Zariphopoulou . Thaleia . 2019 . An ergodic BSDE approach to forward entropic risk measures: representation and large-maturity behavior. Finance and Stochastics . 23 . 239–273 . 10.1007/s00780-018-0377-3 . 16261697 . free . 1607.02289 .

Entropic risk measure explained

Mathematical definition

Acceptance set

Dynamic entropic risk measure

See also

Notes and References