Aggregate XS Loss Cost Estimation (Fisher) Flashcards

1
Q

Contrast vertical and horizontal slices approaches

A

Vertical approach is:
+ more intuitive
+ quicker if just 1 entry ratio
- deals with each risk individually

But horizontal approach is:
+ faster if we need to calculate for multiple limits.

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
2
Q

Define entry ratios

A

If risks we are pricing are not exactly the same as underlying distribution, we need to make an adjustment otherwise dollars of expected losses will be off.

To deal with this, we simply rescale vertical axis by dividing actual losses by expected losses.

r = A/E

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
3
Q

Without rescaling, tot area under curve = ?

A

E(Loss)

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
4
Q

Once we use r instead, tot area under curve = ?

A

1

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
5
Q

Explain insurance charge

A

E(XS)/E = E(Losses above LG)/E

Area between curve and rG

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
6
Q

Explain insurance savings

A

E(shortfall)/E = E(shortfall below LH)/E

Area between rH and curve

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
7
Q

Calculate Net Insurance Charge

A

Insurance charge - Insurance savings = phi(rG) - psi(rH)

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
8
Q

Define Table M

A

Collection of related aggregate XS loss factors and related savings.

It ignores the impact of per-occurrence limit.

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
9
Q

Explain how to create a Table M

A
  1. Calculate r for each claim
  2. Create one row for each ri and one for r=0
  3. Add a column for # risks at each ri
  4. Add a column for # risks above ri
  5. Add a column for % risks above ri
  6. Add a column for Charge(ri)
    Charge(rmax) = 0
    Charge(ri) = Charge(ri+1)+(ri+1 - ri)*(% risks above ri)
  7. Make sure Charge(r0) = 1, o/w rescale
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
10
Q

How to get savings from charge

A

Savings = Charge + r - 1

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
11
Q

Why tables defined in terms of r and phi are more desirable

A

Tables are less vulnerable to inflation since as risk increases due to inflation, you can simply map to different existing Table M charge column instead of recalculating.

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
12
Q

What are the 4 properties of insurance charge

A
  1. charge(0) = 1
  2. charge(inf) = 0
  3. First derivative is negative (charge decreases as r increases)
  4. Second derivative is positive (charge decreases at an increasing rate)
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
13
Q

What are the 4 properties of insurance savings

A
  1. savings(0) = 0
  2. savings(inf) = inf
  3. First derivative is positive (savings increase as r increases)
  4. Second derivative is positive (savings increase at an increasing rate)
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
14
Q

Discuss what happens to insurance charge when changing r and risk size

A

As risk size increases, var(r) decreases so charge curve flatten

As risk size decreases, charge goes to 1

As r increases, charge decreases

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
15
Q

Discuss what happens to insurance savings when changing r and risk size

A

As risk size decreases, savings go to r (since savings = charge + r - 1 = 1 + r - 1 = r)

As r increases, savings increase

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
16
Q

Discuss how error in estimation of expected losses impact insurance charge

A

If E too high, we will be using wrong Table M and we will have a flatter aggregate loss distribution so charge will be underestimated.

On the other hand, we will have a smaller entry ratio which will result in higher charge.

The 2 impacts are partially offsetting so final impact on insurance charge is uncertain.

17
Q

How error in estimation of E changes based on r

A

At lower r, curve for largest risks has steepest negative slope so using slightly incorrect r will result in biggest absolute error in Table M charge.

When results multiplied by E(A), error in $ is very large.

At higher r, curve for largest risks is flattest so using slightly incorrect r will result in smaller absolute error in Table M charge.

However, since charges for high entry ratios of large risks are so low, even a small absolute error results in large % error.

In a nutshell,
For high r, % error in charge is greatest for large risks
For low r, $ error is greater for large risks

18
Q

Calculate Adjusted Expected Losses

A

Some policies of same size are riskier than other policies.

To account for this, adjust E to match those of a risk with different size but similar variance in aggregate loss distribution.

E adjusted = E * State HG Differential

Since 2019, NCCI uses Expected Count Group instead of Expected Loss Group to determine appropriate Table M column for risk.

19
Q

List 2 things State HG Differential adjusts for

A
  1. Riskiness: some classes have higher proportion of larger claims
  2. Location: differences in medical care cost, benefit, court verdicts, etc.
20
Q

What is the idea behind using E(N) to determine which table to use instead of Adjusted Expected Losses

A

A risk with higher severity state will have lower E(N) implying greater volatility.

This approach works well is sev distribution differs in scale but not in shape, otherwise we also need to adjust for sev distr as well.

21
Q

Calculate Basic Premium (B) for Retro policy

A

B = e - (c-1)E + cI

I = E*(phi(rG) - psi(rH))

22
Q

What are the 2 Table M Balance Equations

A

Diff in charges = (e+E)T - H / cET
Diff in r = (G-H) / cET

Same denominator!!!!

23
Q

Discuss how variance of limited aggregate distribution is reduced by occurrence limit

A

Occurrence limit reduces variance of aggregate loss distribution (flattens curve) because variance of underlying severity distribution is reduced by occurrence limit.

The smaller the occurrence limit, the less variance in severity distribution so limited aggregate loss distribution has less variance as well

24
Q

Why are Table M no longer appropriate if per-occurrence limit is applicable

A

They do not recognize overlap between occurrence limit and aggregate limit.

25
Q

What are the 2 options if per-occurrence limit applicable (instead of Table M)

A
  1. We can estimate the per-occ XS losses separately from limited aggregate XS losses.
    Limited aggregate XS losses will be estimated using Limited Table M.
  2. We can estimate the per-occ XS losses and aggregate XS losses simultaneously.
    Using a Table L which includes a charge for both per-occ XS losses as well as limited aggregate XS losses.
26
Q

Explain how to construct a Limited Table M

A

Identical to Table M build but using limited loss data (Ad)

r* = Ad/E(Ad)

R* = (B_LM + cAd)T

B_LM = e - (c-1)E + c(I_LM + kE)
k = 1 - E(Ad)/E

Diff in charges = (e+E)T - H / cE(Ad)T

Diff in ratios = (G - H) / cE(Ad)T

27
Q

Explain how to construct a Table L

A

r* = Ad/E

phi(r*max) = k instead of 0

R* = (B_L + cAd)T

E(R) = (B_L + c(E - I_L))T

E(Ld) = E - I_L

I_L = E(phi(rG) - psi(r*H))

B_L = e - (c-1)E + cI_L

Diff in charges = (e+E)T - H / cET

Diff in ratios = (G-H) / cET

Same denom as Table M!!!!!

28
Q

Discuss the purpose and thinking behind the ICRLL Approximation

A

Since presence of occurrence limit would normally require entirely new tables, an approximation can be used to simulate a Limited Table M by adjusting the column used for regular Table M.

The thinking behind the approximation is that occurrence limit reduces variance of limited aggregate loss distribution compared to unlimited aggregate loss distribution, which is the same thing that occurs as we move to larger risk sizes.

NCCI used Insurance Charge Reflecting Loss Limitation (ICRLL) procedure to change Table M column used for a risk with occurrence limit to be the column that would normally be used for larger risk in absence of occurrence limit.

29
Q

Calculate adjusted E under ICRLL Approx

A

Adjusted E = E * State HG Differential * (1+0.8k)/(1-k)

k = (LGAF-1)/(0.8+LGAF)

If you use this procedure, since you simulate Limited Table M, you need to use the corresponding balance equations in performing Table M search.

30
Q

Is ICRLL Approximation still used?

A

Nowadays, NCCI publishes Limited Table M directly so ICRLL procedure no longer needed.

31
Q

Explain how (2) to prevent overlap between per-occurrence limit and aggregate limit

A
  1. Apply per-occurrence limit first to not increase Table M charge and prevent overlap.
  2. Use ICRLL to select from different set of Table M charges to approximate Limited Table M charge.
32
Q

Contrast Expected XS Agg Loss using Table L and Limited Table M and Insurer expected retained loss

A

Table L:
E(XS Agg Loss) = Charge*E
Insurer retained = E - XS

Limited Table M:
E(XS Agg Loss) = ChargeE(Ad) + kE
Insurer retained = E - XS

33
Q

True or False?
Table L avoids double-counting

A

True, by limiting distribution.

34
Q

Explain the impact on charge for given r if E(A) underestimated

A

E(A) underestimated so charge underestimated, so charge will increase

35
Q

Can we use the same curve for small and large risks?

A

A separate curve should be built for different risk size groups since var(A) will vary by risk size.

Large risks have more stable results due to law of large numbers.

For small accounts, the curve should be steeper and insurance charge should be higher to reflect this.