I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk...
Transcript of I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk...
![Page 1: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/1.jpg)
- 1 -
Contents of the course:
Wealth behaviour under uncertainty
I) Risk aversion
II) Precautionary saving; prudence
III) Portfolio choices with multiple risks:
temperance
![Page 2: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/2.jpg)
- 2 -
Methodology
• Primer and notations : the notion of risk
aversion
• Theoretical models: model of saving,
model of portfolio choice
• Construction of the risk variables
• Econometrics: test of the prediction of
the models
![Page 3: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/3.jpg)
- 3 -
Static model:
Risk aversion (absolute or relative), risk
tolerance
We suppose an agent whose utility function u(.) is
assumed to be increasing and concave, and depends
only of initial wealth amount W:
u(W) > 0 or < 0 ; u' > 0 ; u'' < 0
W is assumed to be known with certainty. We
assume an additive risk ˜ y with zero expectation :
E ˜ y =0
Example: a lottery with y=a or -a with probability 1/2
![Page 4: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/4.jpg)
- 4 -
As utility function u is concave, the agent
supposed to maximise his expected utility, Eu(.),
prefers to take no risk. So, he prefers always to
take the expectation of the lottery E ˜ W instead of to
participate to the game. In other words, the
consumer is risk averse (see Figure 1):
Eu(W + ˜ y ) < u(W)
With :
E ˜ W = E(W + ˜ y ) =1/2*(W+a)+1/2*(W-a)= W
So the agent is indifferent between paying the risk
premium, !, or participate to the game:
![Page 5: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/5.jpg)
- 5 -
Eu(W + ˜ y ) = u(E ˜ W - ")
= u(W - ") = u(CE ˜ W )
with CE ˜ W is the certainty equivalent of the game.
Risk premium is the amount that the consumer is
willing to pay to avoid risk.
In the same manner, we can define the
compensatory risk premium "* as the following:
Eu( ˜ W + "*) = Eu(W+ ˜ y + "*)
= u(E ˜ W ) = u(W)
Figure 1
![Page 6: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/6.jpg)
Risk aversion
Eu(W+ ˜ y ) !
!"
u(.) : utility function
u(W+a)
)
u(W)
u(W-a)
W-a W-! W W+!" W+a
W: initial wealth ; a: loss or gain ; !: risk premium
!": compensatory risk premium
![Page 7: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/7.jpg)
- 6 -
The compensatory risk premium is the amount
that we have to pay to individual if we want
that he plays.
If the risk is small with small standard deviation
!y, we can show (with a Taylor approximation)
that this risk premium is at first order (risk
aversion in the small, Pratt, 1964):
"(W, ˜ y ) ="*(W, ˜ y ) = (-u''/u')!2y /2 = A!2
y /2
with : A = -u''/ u' > 0
A is absolute risk aversion (Pratt, 1964). Risk
tolerance is defined as the inverse of ARA: #=1/".
![Page 8: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/8.jpg)
- 7 -
It represents the individual's propensity to take
risk.
For "big" risk, we can show that a less risk averse
consumer (with utility function u1) than another
consumer (with utility function u2) will need, every
things being equal, a smaller risk premium to play
to the lottery (risk aversion in the large):
A1 < A2, $ W #"1 < "2, "*1 < "*2, $ W
With u2 a positive concave transformation $ of u1:
u2=$(u1)
So, (Arrow-Pratt theorem) for an agent with
decreasing absolute risk aversion (DARA),
![Page 9: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/9.jpg)
- 8 -
[A'(W) < 0], the risk premium decreases according
to wealth : "'(W) < 0.
We can also define relative risk aversion:
! (W ) = "Wu' '
u'
![Page 10: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/10.jpg)
- 9 -
Application :
Assume a portfolio choice between an risk-less
asset and a risky asset.
˜ R r
: return on risky assets
E ˜ R r= R
r (R
r> R)
! ˜ R r
=! (small risk)
!
MaxEu(˜
W )
utc. ˜
W = W [R +"(˜ R
r# R)]
W : initial wealth
% : fraction of wealth invested in risky asset
![Page 11: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/11.jpg)
- 10 -
We can see that the amount for risky assets M(.) is
proportional to the individual's risk tolerance #.
For big risk, we can show that an agent less
tolerant than another will choose, every things
being equal, a lower amount of risky asset (Arrow,
1965).
&1 < & 2, $ W ' A1 > A2 ' M1(W) < M2(W)
• Amount invested in risky assets :
M(W) =(R
r! R)
" 2A(W )
A(W) = Absolute risk aversion
![Page 12: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/12.jpg)
- 11 -
So M(W) is increasing according to wealth if u(.) is
DARA.
We can see also that the proportion of risky assets
in wealth is proportional to relative risk aversion (.
![Page 13: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/13.jpg)
- 12 -
Intertemporal model
Precautionary saving, increasing in risk,
prudence
Take a consumer planning his choice over two
periods, present and future. Capital market is
perfect (the individual can borrow over the certain
part of his income). The interest rate is assumed to
be zero. Resources are assumed to be exogenous
(there is no choice on job occupation). The
resources of first period are the sum of capital
receipts and labour income of first period. X
denotes it and is certain. The second period income
![Page 14: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/14.jpg)
- 13 -
is uncertain and can be expressed by (Y+ ˜ y ) where
˜ y is an additive risk with zero expectation (see
before). ˜ y is exogenous and uninsurable: it's a
background risk. W denotes the amount of
resources that are certain. The individual
maximises the expectation of an intertemporal
utility which is assumed to be additive:
Max{C, C’} v(C) + )u(C’)
Under the constraint:
W = X+Y = C+S
C' = S+ ˜ y
![Page 15: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/15.jpg)
- 14 -
C and C' are consumption of the two periods. S is
the amount of "saving". The first order
conditions (Euler equation) are:
v'(C) = v'(W-S) = Eu'(S+ ˜ y )
There will be precautionary saving if C
decreases or S increases relatively to the risk-
less case (when !y = 0).
v'(C) = v'(W-S) = u'(S)
![Page 16: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/16.jpg)
- 15 -
As marginal utility v'(.) is decreasing in
consumption (v' increases as S increases), the
necessary and sufficient condition for
precautionary saving is (Leland, 1968,
Sandmo, 1970, Drèze and Modigliani, 1972):
Eu'(S + ˜ y ) > u'(S) <=> u' convexe <=> u''' > 0
This condition is on the third derivative of the
utility function. Risk aversion is not sufficient
to justify precautionary saving because future
consumption is uncertain and so its price is
bigger. So uncertainty about future income
![Page 17: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/17.jpg)
- 16 -
implies two effects: an income effect (C
decreases - S increases - if A is positive) and a
substitution effect (C increases and S
decreases).
The previous result is also true for a mean
preserving increase in risk, x, a la Rothschild
and Stiglitz (1970): E( ˜ x / ˜ y ) = 0. Convexity of
marginal utility is the necessary and sufficient
condition to an increasing in precautionary
saving because we will have:
Eu'(S + ˜ y + ˜ x ) > Eu'(S + ˜ y )
![Page 18: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/18.jpg)
- 17 -
This condition implies that (-u') is an
increasing and concave function as the utility
function u is. So Kimball (1990) shows that
we can apply the results of Arrow-Pratt to
(-u') (see Figure 2).
The consumer is "prudent" if (-u') is concave,
so:
-Eu'(S + ˜ y ) < -u'(S)
With :
E ˜ S = E(S + ˜ y ) = 1/2*(S+a)+1/2*(S-a)= S
![Page 19: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/19.jpg)
Prudence
-Eu'(S+y)
S-a S-! S S+!" S+a
-u'(S+a)
)
!
!"
-u'(.)
-u'(S)
-u'(S-a)
S: saving ; a: loss or gain ; !: precautionay premium
!": compensatory precautionnary premium
![Page 20: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/20.jpg)
- 18 -
As we have defined risk premium with u, we can
define a precautionary premium with (-u'), %, by:
-Eu'(S + ˜ y ) = -u'(E ˜ S - %)
= -u'(S - %)
In the same manner, we can define the
compensatory precautionary premium %* as:
-Eu'( ˜ S + %*) = -Eu'(S+ ˜ y + %*)
= -u'(S)
![Page 21: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/21.jpg)
- 19 -
%* expresses the increasing in saving that
compensates (in terms of marginal utility) the
introduction of income risk. This is the case of
precautionary behaviour (self-insurance
behaviour).
If the risk is small with small standard deviation
!y, we can show that this precautionary premium is
at first order (precautionary saving in the small):
%(S, ˜ y ) = % *(S, ˜ y ) = [-(-u')''/(-u')']!2y /2
= p!2y /2
with : p = [-(-u')''/(-u')'] = -u'''/u''> 0
![Page 22: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/22.jpg)
- 20 -
p is absolute prudence. Positive prudence implies
precautionary saving. Precautionary premium is,
for small risk, proportional to absolute prudence.
For "big" risk, we can show that a less prudent
consumer (with minus marginal utility function
-u'1) than another consumer (with minus marginal
utility function -u'2) will have, every things being
equal, a smaller precautionary saving
(precautionary saving in the large):
p1 < p2, $ S #%1 < % 2, % *1 < % *2, $ S
With -u'2 a positive concave transformation $ of -u'1:
-u'2=$(*u'1)
![Page 23: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/23.jpg)
- 21 -
So, (Kimball theorem) for an agent with
decreasing absolute prudence (DAP), [p'(S) < 0],
precautionary decreases according to wealth or
consumption: %'(W) < 0; %&'(W) < 0.
We can also define relative prudence as we have
defined relative risk aversion:
!(C) = "Cu' ' '
u' '
There is a perfect analogy between the notion of
risk aversion based on u properties and the notion
of prudence based on -u' properties.
![Page 24: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/24.jpg)
- 22 -
We can show that if u is DARA, we have:
!
A'
A=
dLog"u' '
u'
dW= "
u' '
u'+u' ' '
u' '= A " p < 0
# A < p
Risk aversion is superior to prudence. In other
words, -u' is more concave or more sensitive to
risk than u.
![Page 25: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/25.jpg)
- 23 -
Examples of utility function most often used in
models
Quadratic utility
u(C) = (-1/2) (C* - C)
2 : A = 1/(C
* -C ) ; p = 0
C* is maximum of possible consumption. Absolute
risk aversion is increasing according to wealth,
which is not realistic. Especially, optimal amount of
risky assets is decreasing according to wealth.
Absolute prudence is zero, so there is no
precautionary saving. For intertemporal model, this
felicity function give the case of certainty
equivalence.
![Page 26: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/26.jpg)
- 24 -
Exponential utility
u(C) = (-1/+) exp (-+C) ; + > 0 : A = + ; p = +
Absolute risk aversion is constant and equal to
absolute prudence. Amount of risky assets is
independent of wealth. In the intertemporal model,
as precautionary do not depend of the amount of
wealth, we can distinguish in wealth), life cycle
saving (savings intended to finance consumption
during old days) and precautionary saving (due to
risky income).
![Page 27: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/27.jpg)
- 25 -
Iso-elastic utility
u(C) = C1- (/(1 - () , ( >0 ; ( = 1 : u (C) =
log C
A = '/C ; , = ' ; p = (' + 1)/C ; p = ' + 1
Individual's preferences are homothetic (when
resources increase, consumption of each period
increase in the same proportion. Absolute risk
aversion and absolute prudence are decreasing.
Relative risk aversion and relative prudence are
constant. So predictions of theoretical models are
more realistic: amount of risky assets are increasing
according to wealth; proportion of risky assets is
![Page 28: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/28.jpg)
- 26 -
constant according to wealth. Precautionary saving
is decreasing according to wealth.
![Page 29: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/29.jpg)
- 27 -
The definitions of riskiness
(A risk ˜ y is loss-aggravating when starting from
initial wealth W, if and only if it satisfies
Eu'(W + ˜ y ) >= u'(W)
Observe that this is equivalent to:
E ˜ y <%
![Page 30: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/30.jpg)
- 28 -
Where % is the precautionary premium as defined
by Kimball (1990).
Demonstration:
Eu'(W + ˜ y ) = u'(W+E ˜ y -%)>u'(W)
If E ˜ y =<% ( E ˜ y -%=<0
( Eu'(W + ˜ y )>=u'(W)
The set of risks that satisfy this property for
preferences u and initial wealth W is called
expected-marginal-utility-increasing risks. In
intuitive terms, they are risks that make the agent
willing to pay a smaller amount than its expected
![Page 31: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/31.jpg)
- 29 -
value in order to keep as optimal the decision
prevailing before its introduction. This class of risks
are also called non-decreasing expected marginal
utility risks.
![Page 32: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/32.jpg)
- 30 -
(A risk ˜ y is undesirable when starting from initial
wealth W, if and only if it satisfies :
Eu(W + ˜ y ) =< u(W)
This can be restated in terms of the risk premium:
E ˜ y <!
Where ! is the risk premium as defined by Pratt
(1964).
![Page 33: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/33.jpg)
- 31 -
Demonstration:
Eu(W + ˜ y ) = u(W+E ˜ y -!)=<u(W)
If E ˜ y =<! ( E ˜ y -!=<0
( Eu(W + ˜ y )=<u(W)
This set of risks are also known as expected-utility-
decreasing risks. Intuitively, the agent is willing to
pay more than their expected value to take a decision
as if he were in a certain environment (according to
a certain objective function).
![Page 34: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/34.jpg)
- 32 -
Finally observe that if preferences are DARA, every
undesirable risk is loss-aggravating.
If DARA:
p>A ) !<%
#E ˜ y <!<%
So:
˜ y indesirable # ˜ y loss agravating
![Page 35: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/35.jpg)
- 33 -
A risk ˜ y is unfair if and only if E ˜ y <0. As before
this can be restated in terms of the risk premium
!: E ˜ y <0<!. Observe that undesirable risks have no
a priori restriction on the sign of their expectation,
and thus include unfair risks as a particular class.
![Page 36: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/36.jpg)
- 34 -
Demonstration of standarness
(Kimball, 1993)
![Page 37: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/37.jpg)
- 35 -
Eu' (W + ˜ y ) = u' W + E˜ y !" (W, ˜ y )[ ]
Eu' ' (W + ˜ y ) =
1!#" (W, ˜ y )
#W
$
% & '
( ) u' ' W + E˜ y !" (W , ˜ y )[ ]
*!Eu' ' (W + ˜ y )
Eu' (W + ˜ y )=
1!#" (W, ˜ y )
#W
$
% & '
( ) A W + E˜ y !" (W, ˜ y )[ ]
" (.) is an increasing function according
to W if DAP, so :
![Page 38: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/38.jpg)
- 36 -
1!"# (W, ˜ y )
"W
$
% & '
( ) *1
+!Eu' ' (W + ˜ y )
Eu' (W + ˜ y )* A W + E˜ y !# (W, ˜ y )[ ]
if DARA and E˜ y , 0,we have :
A W + E˜ y !# (W, ˜ y )[ ] < A(W )
+!Eu' ' (W + ˜ y )
Eu' (W + ˜ y )* A(W )
![Page 39: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/39.jpg)
- 37 -
The interpretation of the lottery:
"We would like to ask you a hypothetical question
that we would like you to answer as if the situation
was a real one. You are offered the opportunity of
acquiring a security permitting you, with the same
probability either to gain 5000 euros or to lose all
the capital invested. What is the most (Z) that you
are prepared to pay for this security?"
![Page 40: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/40.jpg)
- 38 -
Z = 2500 euros imply risk neutrality. Z<2500
imply risk aversion. Z>2500 imply risk loving.
The maximum price for participating in the lottery
is then defined by (P is the random price of the
lottery):
u(w) =1
2u(w + 5! Z)+
1
2u(w ! Z)
= Eu(w + P ! Z)
A second Taylor expansion of RHS gives:
![Page 41: I) Risk aversion prudence - Luc ARRONDELluc.arrondel.free.fr/Theorisk/Palma_cours.pdf · risk aversion is increasing according to wealth, which is not realistic. Especially, optimal](https://reader034.fdocuments.in/reader034/viewer/2022051918/600a76ff0cbcc4183c00b2e5/html5/thumbnails/41.jpg)
- 39 -
Eu(w + P ! Z) " u(w)+ u' (w)E(P! Z)
+ 0.5u' ' E(P ! Z)2
# A(w) =!u' ' (w)
u' (w)=
4(2.5 ! Z)
25+ 2Z2 !10Z