Post on 14-Dec-2015
University of Economics, Faculty of Informatics
Dolnozemská cesta 1, 852 35 Bratislava
Slovak Republic
Financial Mathematics in Derivative Securities and Risk Reduction
Insurance and Risk Reduction, Financial Layering
Ass. Prof. Ľudovít Pinda, CSc.
Department of Mathematics,
Tel.:++421 2 67295 813, ++421 2 67295 711
Fax:++421 2 62412195
e-mail: pinda@dec.euba.sk
Sylabus of the lectures
Preloss financing: - Retention funding.
Composite financing strategies:
- Full insurance and partial insurence.
- Insurance and risk reduction : - Risk reduction with coinsurance.
- Risk reduction with deductibles.
Financial layering.
Identify Risk,Management Events:
Measure Capital Costs
Estimate Effects on CorporateEarnings and Cost of Capital
Immediate Investment Decision Contingent Investment Decision
LossReduction
No LossReduction
PostlossReinvestment
PostlossAbandonment
Financing Financing
PostlossFinancing
PrelossFinancingDept
Equity
Internal funds
Dept
Equity
Internal funds Insurance
Contingent Loans
Funding
Tab. 1 Decision Framework for financial Risk Management
Retention funds when alternative sources of finance have no transaction costs
1V - the present value of the firm at the beginnind the first period,
iEE - the expected earnings for i ih year,
k - the risk-adjusted discount rate,
rf - the risk-free rate,
- the risk premium,
11 )1(
)(
)1(
)()1(
ii
f
i
ii
i
r
EE
k
EEV
, ( 1 )
fr
VEV
1
21 )( , ( 2 )
fr
VEV
1
32 )( ,
fr
VEV
1
43 )( e c t .
U s i n g t h e C A P M
fmf rrErrE )()( ( 3 )
mrE - the expected return of the market portfolio,
rE - the expected return of the business activity, - the coefficient of the business activity,
fm rrE )( . ( 4 )
S u b s t i t u i n g ( 4 ) i n ( 2 )
fmf rrEr
VEV
1
2)1( . ( 5 )
f
mmfm
r
rVrrEVEV
1
/,2cov2)1(
2. ( 6 )
mmm rrVrrVrV , cov 1,1 1cov,2cov a n d
2
, cov
m
mrr
.
S u b s t i t u i n g i n ( 6 )
f
fm
r
VrrEVEV
1
121
.
M o d i f y t h e e x p r e s s 1V i s v a l i d ( 5 )
fmf rrEr
VEV
1
21 .
222 LEXEVE ( 7 )
1F - t h e v a l u e o f a r e t e n t i o n f u n d a t t h e b e g i n n i n g o f t h e f i r s t p e r i o d ,
arEF 11 - t h e v a l u e o f t h e f u n d i m m e d i a t e l y b e f o r e t h e e n d o f f i r s t p e r i o d , ( 8 )
E ( r a ) - t h e e x p e c t e d r a t e o f r e t u r n o n f u n d a s s e t s .
2VE = E [ X ( 2 ) ] - F ( 1 ) ( 1 + k ) + F ( 1 ) [ 1 + E ( r a ) ] - E [ L ( 2 ) ] =
= E [ X ( 2 ) ] + F ( 1 ) [ E ( r a ) - k ] - E [ L ( 2 ) ] . ( 9 )
U s i n g ( 6 ) a n d ( 9 ) t h e v a l u e o f t h e f i r m
f
maa
r
rLkrFXLEkrEFXEV
1
),2())(1()2(co v)2()()1()2()1(
, ( 1 0 )
w h e r e
λ = [ E ( r m ) - r f ] / σ 2m .
A s s u m e t h a t 1F i s r i s k l e s s
c o v [ X ( 2 ) + F ( 1 ) ( r a - k ) – L ( 2 ) , r m ] = c o v [ X ( 2 ) , r m ] +
+ F ( 1 ) c o v ( r a , r m ) – F ( 1 ) c o v ( k , r m ) – c o v [ L ( 2 ) , r m ] , ( 1 1 )
S u b s t i t u t e i n ( 1 0 )
.
1
),2(cov)2(
1
),cov()1()1(
1
),cov()1()()1(
1
),2(cov)2()1(
f
m
f
m
f
maa
f
m
r
rLLE
r
rkFkF
r
rrFrEF
r
rXXEV
( 1 2 )
The value of the firm:
The commercial non-risk management activities.
The value of retention fund.
The value of the firms loss exposure.
Retention funds when the alternative sources of finance have transaction costs
K - the transaction costs from resorting to external financing,
nR - the probability of ruin of the fund,
KE - the expected value of transaction costs,
R n = P r [ L ( 2 ) > F ( 1 ) ( 1 + r a ) ] , KRKE n .
E ( K ) = R n [ F ( 2 ) , L ( 2 ) ] K . ( 1 3 )
E [ V ( 2 ) ] = E [ X ( 2 ) ] + F ( 1 ) [ E ( r a ) - k ] - E [ L ( 2 ) ] – R n K ( 1 4 )
f
na
r
KRLEkrEFXEV
1
)2()()1()2()1( ( 1 5 )
f
mna
r
rKRLkrFX
1
,)2())(1()2(cov, λ = [ E ( r m ) - r f ] / σ 2
m .
mnmmmam
mna
rRKrLrkFrrFrX
rKRLkrFX
,cov),2(cov,cov1,cov1),2(cov
,21)2(cov
. ( 1 6 )
S u b s t i t u i n g i n ( 1 5 )
(17) .
1
),cov(
1
),2(cov)2(
1
),cov(1)1(
1
),cov(1)()1(
1
),2(cov)2()1(
f
mnn
f
m
f
m
f
maa
f
m
r
rRKKR
r
rLLE
r
rkFkF
r
rrFrEF
r
rXXEV
The value of the firm:
• The value from commercial non-risk management activities.
• The value or cost from establishing a fund and investing its assets minus the cost of raising capital to
finance the fund.
• The ( negative ) value contributed by the loss exposure.
• The ( negative ) contribution to value arising from the prospect of incurring transaction costs for
unfunded loses.
Composite financing strategies
• Full insurance and partial insurance
ACV – the actual cash value is the measure of the direct ownership claim of an individual
property. These claims represent rights the income generated from corporate
investments and rights to share in the residual value of the firm.
Fig. 1 Loss distribution and Proportionale Coinsurance
Risk Reduction with Coinsurance
RXE . ( 1 )
E - t h e v a l u e o f e a r n i n g s ,
X - t h e v a l u e o f e a r n i n g s b e f o r e d e d u c t i o n o f r i s k m a n a g e m e n t l o s s ,
R - t h e v a l u e o f l o s s f r o m r i s k m a n a g e m e n t f a c t o r s ,
XE - t h e e x p e c t e d v a l u e o f e a r n i n g s b e f o r e d e d u c t i o n o f r i s k m a n a g e m e n t l o s s ,
RE - t h e e x p e c t e d v a l u e o f l o s s f r o m r i s k m a n a g e m e n t f a c t o r s ,
EE - t h e e x p e c t e d e a r n i n g s o f a f i r m ,
REXEEE . ( 2 )
R - t h e r i s k m a n a g e m e n t c o s t ,
- t h e u n i n s u r e d p r o p o r t i o n o f l o s s ,
1 - t h e i n s u r e d p r o p o r t i o n o f l o s s ,
L - t h e l o s s ,
P - t h e i n s u r a n c e p r e m i u m ,
PLR . ( 3 )
xp - t h e p r o b a b i l i t y o f e a r n i n g s ,
lp - t h e p r o b a b i l i t y o f l o s s ,
x
xpxXE ,
l
lplLE ,
ll
lpPllpRRE ( 4 )
PLElpPlplll
.
x
xpXExX 22 ,
l
lpLElL 22 ,
l
lpPLEPlR 22
LlpLEll
2222 . ( 5 )
T h e i n s u r a n c e p r e m i u m w i l l b e c a l c u l a t e d i n r e l a t i o n t o t h e e x p e c t e d v a l u e o f c l a i m p a y m e n t
gLEfP 11 , ( 6 )
f , g - t h e p o s i t i v e c o n s t a n t s t o r e f l e c t t h e i n s u r e s p r e m i u m l o a d i n g s .
S u b s t i t u i n g i n ( 3 )
gLEfLR 11
gLEffgLEfLERE 111 . ( 7 )
F r o m ( 2 ) a n d ( 4 ) o r ( 2 ) a n d ( 7 )
PLEXEEE , ( 8 )
gLEffXEEE 1 . ( 9 )
E2 - t h e v a r i a n c e o f t h e e a r n i n g o f t h e f i r m ,
22 EEEEE ( 1 0 )
S u b t r a c t i n g ( 1 ) a n d ( 2 )
RERXEXRERXEXEEE ,
S u b s t i t u i n g i n ( 1 0 )
222 2 RERRERXEXXEXEE
22 2 RERERERXEXEXEXE
RDRXXD ,cov2 . ( 1 1 )
D ( X ) , D ( R ) , D ( L ) – t h e v a r i a n c e o f X , R , L .
LELPLEPLRER
222 2 LELELELXEXEXEXEE
222 2 LELELELXEXEXEXE
LDLXXD 2,cov2 .
LLXXE 222 ,cov2 , ( 1 2 )
RX ,cov - t h e c o v a r i a n c e b e t w e e n b u s i n e s s e a r n i n g s X a n d r i s k m a n a g e m e n t c o s t R ,
LX ,cov - t h e c o v a r i a n c e b e t w e e n b u s i n e s s e a r n i n g s X a n d u n i s u r e n c e d l o s s e s L .
Example 1
Let E(X) = 20, E(L) = 2, 1002 X a 202 L , the insurance premium is (6) for
f = 0.2 a g = 0.2. Analyse the expected levels of earnings with respect to the standard
deviations, at different levels of insurance. Solution
For 25.0 from (2) and (7)
5.22.022.025.02.0125.0 RE and 5.175.220 EE .
Tab. 1
0 0.25 0.5 0.75 1
E(E) 17.4 17.5 17.6 17.7 17.8
For example 20,covLX
.64911.122012012100
,88486.112075.02075.02100
,18033.11205.0205.02100
,54751.102025.02025.02100
,102002002100
21
275.0
25.0
225.0
20
E
E
E
E
E
Tab. 2
LX,cov
E0 E25.0 E5.0 E75.0 E1
-20 10 10.54751 11.18033 11.88486 12.64911
-15 10 10.42832 10.95445 11.56503 12.24744
-10 10 10.30776 10.72381 11.2361 11.83216
-5 10 10.18577 10.48809 10.89725 11.40175
Tab. 3
LX ,cov E0 E25,0 E5,0 E75,0 E1
- 4 1 0 1 0 . 1 6 1 2 0 1 0 . 4 4 0 3 1 1 0 . 8 2 8 2 0 1 1 . 3 1 3 7 1
- 3 1 0 1 0 . 1 3 6 5 7 1 0 . 3 9 2 3 1 0 . 7 5 8 7 2 1 1 . 2 2 4 9 7
- 2 1 0 1 0 . 1 1 1 8 7 1 0 . 3 4 4 0 8 1 0 . 6 8 8 7 8 1 1 . 1 3 5 5 3
- 1 1 0 1 0 . 0 8 7 1 2 1 0 . 2 9 5 6 3 1 0 . 6 1 8 3 8 1 1 . 0 4 5 3 6
0 1 0 1 0 . 0 6 2 3 1 1 0 . 2 4 6 9 5 1 0 . 5 4 7 5 1 1 0 . 9 5 4 4 5
1 1 0 1 0 . 0 3 7 4 3 1 0 . 1 9 8 0 4 1 0 . 4 7 6 1 6 1 0 . 8 6 2 7 8
2 1 0 1 0 . 0 1 2 4 9 1 0 . 1 4 8 8 9 1 0 . 4 0 4 3 3 1 0 . 7 7 0 3 3
3 1 0 9 . 9 8 7 4 9 2 1 0 . 0 9 9 5 1 0 . 3 3 1 9 9 1 0 . 5 3 5 6 5
4 1 0 9 . 9 6 2 4 2 9 1 0 . 0 4 9 8 8 1 0 . 2 5 9 1 4 1 0 . 5 8 3 0 1
5 1 0 9 . 9 3 7 3 0 3 1 0 . 0 0 0 0 0 1 0 . 1 8 5 7 7 1 0 . 4 8 8 0 9
1 0 1 0 9 . 8 1 0 7 0 8 9 . 7 4 6 7 9 4 9 . 8 1 0 7 0 8 1 0 . 0 0 0 0 0
1 5 1 0 9 . 6 8 2 4 5 8 9 . 4 8 6 8 3 2 9 . 4 2 0 7 2 1 9 . 4 8 6 8 3
2 0 1 0 9 . 5 5 2 4 8 6 9 . 2 1 9 5 4 4 9 . 0 1 3 8 7 8 8 . 9 4 4 2 7
17,3
17,4
17,5
17,6
17,7
17,8
8,5 9 9,5 10 10,5 11 11,5 12 12,5 13
E(E)
)( E
=1
=0,75
=0,5
=0,25
=0
cov(X,L)=20 cov(X,L)=0 cov(X,L)=-20
Fig. 2
17,3
17,4
17,5
17,6
17,7
17,8
9,5 10 10,5 11 11,5 12 12,5 13 )(E
E(E)
=0,75
=0,5
=0,25
=0
=1 cov(X,L)=0 cov(X,L)=-20
Fig. 3
=0,75
=0,5
=0,25
=0
=1
)(E17,3
17,4
17,5
17,6
17,7
17,8
8,5 9 9,5 10 10,5 11
E(E)
cov(X,L)=20 cov(X,L)=0
Fig. 4
Deductible : - per loss deductible / is applied to each loss /,
- the cumulative deductibles / is applied to the annual total of losses /.
Settlement under policy with 20 000 deductibles
Per loss deductible Cumulative deductible
Loss Payment Cumulative loss Payment
16 000 0 173 000 173 000-20 000=153 000
33 000 33 000-20 000=13 000
124 000 124 000-20 000=104 000
Total settlement
117 000 153 000
Risk reduction with deductibles
Tab. 4
Fig. 5
Distribution of retained loss
Distribution of policy payment
x
xpxXE and x
xpXExX 22 ,
- the deductible,
D - the premium,
R - the actual risk management cost for the firm,
RE - the expected value of risk management costs,
2R - the variance of risk management cost,
LD
LDLR
if
if . ( 1 3 )
DlplplREll
Dlpllpllpllplllll
( 1 4 )
DlpllEDlpllpllll
,
l l
REDlpREDllpR 22 )( )( , ( 1 5 )
nlplmDl
1 , ( 1 6 )
m a n d n - t h e p a r a m e t e r s o f d e d u c t i b l e s .
Example 2 The loss distribution by Tab. 5
l 0 100 1000 10 000 20 000
p(l) 0.6 0.2 0.1 0.04 0.06
Tab. 5
T h e f i r m s e x p e c t e d e a r n i n g s b e f o r e d e d u c t i o n o f r i s k m a n a g e m e n t c o s t s a r e 00015XE ,
0002X , 0 and 5.0 nm . T h e d e d u c t i b l e a n b e s e t a t 0 , 1 0 0 , 1 0 0 0 , o r
00010 . T h e b u s i n e s s a n d r i s k m a n a g e m e n t c o m p o n e n t s o f e a r n i n g s a r e u n c o r r e l a t e d .
S o l u t i o n
REXEEE .
LXE 22 . ( 1 7 )
T h e d e d u c t i b l e 100 a n d 1720LE ,
lplDl 100
1005,1100
5202100000206.0100000104.010000011.05.1 ,
,560252021000002006.01000001004.010000011.0
72011001007201100
DlplRE
,400206.004.01.02.0560252021006.0560252020
100100100100100
22
222100
lpREDlpREDlRl
,4401210000015 REEE
59991.000200024002 222100100 XRE .
D RE R2 E(E) E
0 2 580 2 580 0 12 420 2 000
100 2 520 2 560 2 400 12 440 2 000.5999
1 000 2 250 2 470 153 600 12 530 2038.0383
5 000 2 100 2 420 4 090 640 12 580 2 844.405
10 000 900 2 020 8 847 600 12 980 3 584.3549
15 000 450 1 870 15 585 600 13 130 3 947.8602
20 000 0 1 720 25 143 600 13 280 5 398.4813
Tab. 6
12200
12400
12600
12800
13000
13200
13400
1000 2000 3000 4000 5000 6000
E(E)
Fig. 6
Financial Layering
Costs
Source
Actual cost
(AC)
Present expected value
(EC)
Insurance (1+ a) E(L) (1+ a) E(L)
New Issue b + (1+ c)L [PLAb + (1+ c)E(L)]( 1+ k1)-1
Internal Liquid Resources L E(L) (1+ k2)-1
Tab. 7
a, b, c, - the positive constants, (a c),
k1 , k2 - the risk - adjusted discount rates,
PL,A - the probability that a loss will arise that is above some threshold level A.
C
L0
C=L
L
C
0
C=L
C
11 k
C
Insurance New Issue
Fig. 7 Fig. 8
Internal Liquid Resources C
L0
C=L
11 k
C
Fig. 9
Two-layer financing methods
A
L
C
D G
0
Layer 1 Layer 2
Internal financing Insurance of
external financing
B
F
0 L
C
A
Layer 1 Layer 2
Internal financing New issues
Fig. 10
Three-layer financing method
Cover payments Loss
0 L0
L UL
U UL
Tab. 8
L 0
B
D
K
A
D
H
J
G
Layer 1 Layer 2 Layer 3
F
C
U
P
Fig. 11