Mildenhall Ch 5: Properties of Risk Measures

Question 1

Define Insurance Event and provide an example

Answer 1

Set of circumstances likely to result in insurance losses.

Ex:
1. Occurrence of a category 4 hurricane
2. Cluster of bad traffic

Question 2

Define Realistic Disaster Scenario (RDS) and provide an example

Answer 2

Specific type of insurance event that is potentially disastrous but plausible.

Ex:
1. category 3 hurricane similar to one that has occured before

Question 3

Define Probability Event and provide an example

Answer 3

Possible state of the world to which probability is assigned

Ex:
1. 2 category 4 hurricanes and an earthquake in same year
2. No natural catastrophe occur in a year

Question 4

Define Conditional Probability Scenario. How is it calculated?

Answer 4

Best estimate probability in states of the world where insurance Ek occurs.

We are assuming Ek occurs, thus the conditional probability scenario.

Qk(A) = P(A&Bk)/P(Bk)

Bk is the set of all states of the world where Ek occurs.
P is the objective probability of the prob event.

Question 5

Briefly explain how probability scenarios can be used to set capital

Answer 5

When a disaster occurs, we want to ensure we have enough money on hand to pay out our claims.

To do this, we can define a set of r RDSs and set our risk measure as:
rho_c(X) = max(E_Q1(X),…,E_Qr(X)) where each E_Qk is a conditional expectation of X given that the specific RDS has occured.

Question 6

Identify 2 types of uncertainty about probability function P

Answer 6

1. Statistical Uncertainty
2. Information Uncertainty

Question 7

Define Statistical Uncertainty

Answer 7

P is an estimate subject to the usual problems of estimating cost determining best estimate expected losses.

Question 8

Complete the sentence:
Statistical Uncertainty concerns…

Answer 8

Estimates of objective probabilities.

Question 9

Define Information Uncertainty

Answer 9

P is based on a limited & filtered subset of ambiguous information.

Reflects information asymmetry between insured & insurer and between insurer & investor.

Question 10

True or False?
Both Statistical and Information uncertainties are diversifiable.

Answer 10

False

Only Statistical Uncertainty diversifies across large portfolio and is managed by law of large numbers.

Information Uncertainty is more unavoidable.

Question 11

Complete the sentence:
Information Uncertainty concerns…

Answer 11

Risk aversion & estimates of subjective probabilities.

Question 12

Briefly explain why uncertainty around P is not a big issue for capital management but is for pricing

Answer 12

Any movements in P from best estimate tend to offset each other in tail of X. Hence, measures like TVaR do not differ much with & without P uncertainty.

However, pricing risk measures are focused on risk in estimate of the mean E(X) rather than risk of an RDS outcome (tail event). In this case, uncertainty in P matters.

Question 13

Describe Generalized Probability Scenarios and provide an example

Answer 13

Since information uncertainty is the main issue (cannot be diversified), we can create generalized probability scenarios that reflect it.

They incorporate additional information & not necessarily conditional probability related to P.

Ex:
1. Insureds being systematically misclassified
2. Adverse selection

These additional events are included as part of state of the world & probability associated with them are more subjective.

By incorporating them into pricing risk measure, we have more confidence that premium will cover expected losses.

Question 14

Identify 3 qualities of coherent risk measures

Answer 14

1. Intuitive and easy to communicate
2. Can be used for capital & pricing
3. Has properties alignes with rational risk preferences

Question 15

Define Translation Invariant (TI) risk measure

Answer 15

rho(X+c) = rho(X) + c

Increasing a loss by a constant c increases risk by c.

Question 16

Provide 2 examples of TI risk measures

Answer 16

1. Mean
2. VaR
3. TVaR

Question 17

Provide an example of non-TI risk measure and explain

Answer 17

1. Variance ( V(X+c) = V(X))
2. Standard deviation
3. Factor-based measures such as RBC (since factor is applied to a constant)
4. All higher central limit theorems

Question 18

True or False?
All coherent risk measures are TI

Answer 18

True since E_Q(X+c) = E_Q(X) + c

Question 19

Define Normalized (NORM) risk measure

Answer 19

rho(0) = 0

The risk of an outcome with no gain or loss equals zero.

Question 20

Define acceptable risks

Answer 20

Assuming rho is normalized, risk is preferred to doing nothing if rho(X) negative.

Question 21

Define acceptance set of risks

Answer 21

Set of risks preferred to doing nothing.

Question 22

Provide 2 examples of NORM risk measures.

Answer 22

1. TVaR
2. VaR
3. Mean

Question 23

True or False?
All coherent risk measures are NORM

Answer 23

True since E_Q(0) = 0

Question 24

Define Monotone (MON) risk measure

Answer 24

If X smaller than Y in all outcomes, than X is preferred over Y.

Question 25

Provide 2 examples of MON risk measures

Answer 25

1. TVaR
2. VaR
3. Mean
4. Scenario losses
5. Higher central moments

Question 26

Provide an example of non-MON risk measure

Answer 26

Standard deviation

If X is uniform(0,1) and Y=1, X is smaller than Y for all outcomes, but rho(X) = sigma greater than rho(Y) = 0

Question 27

True or False?
All coherent risk measures are MON

Answer 27

True since E_Q(X) smaller than E_Q(Y) when X smaller than Y

Question 28

Define the no rip-off property

Answer 28

If X smaller than c, rho(X) smaller than c

Question 29

True or False?
All MON risk measures have no rip-off property

Answer 29

True

Question 30

Define Positive Loading

Answer 30

rho(X) greater or equal to E(X)

Reinsurance if a part of insurance portfolio with negative loading.

Question 31

True or False?
All coherent risk measures have positive loading.

Answer 31

False

Coherent risk measures may or may not have positive loading property.

Question 31

Define Monetary Risk Measure (MRM)

Answer 31

Risk measure has a monetary unit.

Question 32

Provide an example of MRMs

Answer 32

1. Mean
2. TVaR
3. VaR

Question 33

True or False?
All coherent risk measures are MRM

Answer 33

True, by definition coherent risk measures are MRMs

Question 34

Provide an example on non-MRM risk measure

Answer 34

Variance since squared units

Question 35

MRM implies automatically which 2 mathematical properties

Answer 35

MON & TI

Question 36

Define Positive Homogeneous (PH)

Answer 36

rho(lambdaX) = lambdarho(X) for all positive lambdas

Implies that rho is scale invariant.

Question 37

Provide 2 examples of PH risk measures.

Answer 37

1. VaR
2. Standard deviation
3. Scenario Losses

Question 38

PH implies automatically which other mathematical property?

Answer 38

NORM since rho(0) = rho(0X) = 0rho(X) = 0

Question 39

Provide an example of non-PH risk measure

Answer 39

Variance since V(lambda*X) = lambda^2 * V(X)

Question 40

True or False?
All coherent risk measures are PH

Answer 40

True since E_Q(lambdaX) = lambdaE_Q(X)

Question 41

Briefly explain why PH is a controversial axiom.

Answer 41

Some argue that risk varies with scale (i.e. not scale invariant)

For example a portfolio that is 10 times larger may have risk that is more than 10 times greater because it is more difficult to liquidate large investment portfolios.

Question 42

Define Lipschitz continuous risk measure

Answer 42

absolute value of rho(X)-rho(Y) smaller or equal to max of absolute value of X(w)-Y(w) over all states of the world w.

Diff in risk between 2 random variables is at most the max of the absolute value of the difference of their outcomes.

Question 43

Lipschitz continuity also implies which mathematical property

Answer 43

Continuity since LC is a stronger condition than continuous

Question 44

Define subadditive (SA) risk measure

Answer 44

rho(X+Y) =< rho(X) + rho(Y)

The risk of the pool is at most the sum of the risk of the parts.

Question 45

True or False?
Mergers increase risk.

Answer 45

Not without controversy since regulators can find too much diversification benefit.

Question 46

Provide 2 examples of SA risk measures.

Answer 46

1. TVaR
2. Standard deviation

Question 47

Provide an example of non-SA risk measure

Answer 47

1. VaR
2. Variance (V(X+Y) = V(X) + V(Y) + 2 Cov(X,Y) which is higher than V(X) + V(Y) for positive correlations)

Question 48

True or False?
All coherent risk measures are sub additive.

Answer 48

True, max(E_Q(X+Y)) = max(E_Q(X) + E_Q(Y)) smaller or equal to max(E_Q(X)) + max(E_Q(Y))

Question 49

Define sublinear risk measure

Answer 49

Means that PH and SA both hold.

Question 50

Complete the sentence:
Sublinear risk measures have ___ bis-ask spread

Answer 50

Positive.

Bid-ask spread = rho(X) - rho(-X)

Question 51

Define Comonotonic Additive (COMON) risk measure

Answer 51

Variables are comonotonic and rho(X+Y) = rho(X) + rho(Y) (additive)
Comonotonic variables provide no hedge against one another (no diversification)

Question 52

Complete the sentence:
2 random variables X and Y are comonotonic if…

Answer 52

X = g(z) and Y=h(z) for increasing functions g and h and common variable z.

Said differently, (X(w1)-X(w2))*(Y(w1)-Y(w2)) positive so the differences have the same sign.

Ex: if X & Y are different XS layers of same risk Z, then they are comonotonic since indemnity functions are increasing.

Question 53

Provide 2 examples of COMON risk measures

Answer 53

1. VaR
2. TVaR

Question 54

Provide an example of non-COMON risk measure

Answer 54

Variance

Question 55

True or False?
All coherent risk measures are COMON

Answer 55

False, coherent risk measure may or may not be COMON

Question 56

Define Independent Additive risk measure

Answer 56

rho(X+Y) = rho(X) + rho(Y) if X and Y are independent.

Question 57

Provide an example of independent additive risk measure

Answer 57

Variance since when indenepent random variables, Cov = 0

Question 58

Provide an example of non-independent additive risk measure

Answer 58

Standard deviation

Question 59

True or False?
All coherent risk measures are independent additive

Answer 59

False, in general, coherent risk measures are not independent additive.

Question 60

Define Law Invariant (LI) risk measure

Answer 60

Means that rho(X) is a function of F(X)

If X and Y have same distribution function, than rho(X) = rho(Y)

Question 61

True or False?
LI risk measure can only assess risk given explicit representation.

Answer 61

False, LI risk measures can assess risk given implicit or dual implicit representations, does not need to be explicit.

Question 62

True or False?
Cause is relevant in Law Invariance

Answer 62

False, LI is motivated by the fact that entities risk of insolvency depends only on its distribution of future changes in surplus, cause is irrelevant.

Question 63

Why is LI desirable for regulatory capital risk measures

Answer 63

Coupled with continuity, LI enables risk to be estimated statistically which is appropriate for regulatory capital risk measures.

Question 64

Briefly explain why LI risk measures may not be appropriate for pricing (or CAPM)

Answer 64

Since in pricing and CAPM, underlying scenario (cause) matters

Question 65

Provide 2 examples of LI risk measures

Answer 65

1. VaR
2. TVaR
3. Standard deviation

Question 66

Law Invariant is also known as…

Answer 66

Objectivity

Question 67

True or False?
All coherent risk measures are LI

Answer 67

False, coherent risk measures may or may not be LI

Question 68

Define Coherent (COH) risk measure

Answer 68

Coherent if MON, TI, PH and SA

Question 69

Provide 2 examples of coherent risk measures

Answer 69

1. TVaR
2. Average of TVaR at different thresholds

Question 70

Provide an example of non-COH risk measure

Answer 70

1. VaR (fails SA property)
2. Variance (fails MON, PH and SA properties)

Question 71

Define Spectral Risk Measure (SRM)

Answer 71

Means that risk measure is COH, LI and COMON

Question 72

Provide 1 example of SRM risk measure

Answer 72

TVaR

Question 73

Provide 1 example of non-SRM risk measure

Answer 73

VaR

Question 74

Define Compound Risk Measure

Answer 74

rho_a(X) = rho(X limited to a(X))

Question 75

For which use are compound risk measures interesting

Answer 75

In pricing, we might combine a pricing risk measure with a capital risk mesure to produce a compound risk measure

Question 76

Which 4 mathematical properties are implied by rho_a if both rho and a have them.

Answer 76

1. PH
2. NORM
3. TI
4. MON

Question 77

Describe 5 problems with Utility Theory as a model of firm decision making

Answer 77

1. Assumes a diminishing marginal utility of wealth but does not apply in reality.
2. Assumes firm preferences are relative to wealth, while they are absolute
3. Combines attitudes to wealth and risk where they should be separate.
4. Utility functions are not linear, thus expected utility is not MRM
5. Based on combination through mixing, with no pooling, which does not align with insurance operations.

Question 78

Describe how dual utility theory addresses each of the 5 issues.

Answer 78

1. Utility is linear with wealth, thus no marginal diminishing utility of wealth
2. Reflects absolute firm preferences regardless of wealth
3. Allows firms to maximize profits (wealth) while being risk averse
4. Linear in outcomes based on distorted probabilities which means consuming 2 goods is equal to the sum of the utilities of consuming each individual good.
5. Based on combination through mixing and pooling which alignes with insurance purposes.