Teng & Perkins

Question 1

Reasons for popularity of retrospective rated policies (3)

Answer 1

1. attracts preferred customers - encourages loss control through returned premiums for good loss experience
2. cash flow advantages b/c premiums are paid as losses are reported
3. shifts a large portion of the risk to insured

Question 2

Premium asset

Answer 2

= expected ultimate premium - current booked premium

OR sum of expected future retro adjustments

Question 3

Formula for premium at the nth rating adjustment

Answer 3

premium = ( basic premium + ( capped losses * LCF ) ) * tax multiplier

Question 4

First PDLD ratio using the retro formula approach

Answer 4

P(1) / L(1) = ( basic premium / L(1) ) * tax multiplier + cumulative loss capping ratio * LCF * tax multiplier

Question 5

Approximation for loss at time n

Answer 5

L(n) = standard premium * ELR * % loss emerged at time n

Question 6

Interpretation of the cumulative loss capping ratio and portion of losses outside bounds of retro min and max

Answer 6

( 1 - cumulative loss capping ratio ) % of losses developed through the nth rating adjustment are eliminated by the retro max, retro min, and per accident limits

portion of loss outside retro min and max bounds = capped losses - uncapped losses

Question 7

Subsequent PDLD ratios using the retro formula approach

Answer 7

= change in premiums / change in losses

= incremental loss capping ratio * LCF * tax multiplier

Question 8

Incremental loss capping ratio

Answer 8

= ( capped loss at time 2 - capped loss at time 1 ) / ( uncapped loss at time 2 - uncapped loss at time 1 )

Question 9

Advantages of the retro formula approach for calculating PDLD ratios (2)
(Teng and Perkins)

Answer 9

1. responds to changes in retro rating parameters sold

2. PDLD ratios are more stable

Question 10

Disadvantages of the retro formula approach for calculating PDLD ratios (2)
(Teng and Perkins)

Answer 10

1. potential bias exists because average retro rating parameters are used
2. does not reflect changes in loss experience

Question 11

Data required for the empirical approach to calculating PDLD ratios and explanation of lag (2)

Answer 11

1. booked premium development (27 months)
2. reported loss development (18 months)

annual subsequent evaluations
lag is due to delay in processing and recording retro adjustments

Question 12

PDLD ratios (first and subsequent) using the empirical approach

Answer 12

1st PDLD ratio = cumulative booked premium / cumulative reported losses

subsequent PDLD ratios = change in booked premiums / change in reported losses

** calculate triangle of factors and select average at each retro adjustment

Question 13

Reasons for an upward trend in PDLD ratios (2)

Answer 13

1. more liberal retro rating parameters sold (more losses covered by premiums)
2. improvement in loss experience (larger portion of loss w/in retro boundaries)

Question 14

Reasons historical PDLD ratios may fluctuate significantly after 1st adjustment (3)

Answer 14

1. premium or loss development on a few policies can drive total incremental development
2. significant upward development in high loss layers results in no additional premium
3. downward development on layers w/in loss limits can result in returned premium

> > 2 and 3 mean negative PDLD ratios are possible

Question 15

How to respond if there are large fluctuations in historical PDLD ratios (2)

Answer 15

1. average as many historical points as possible

2. use the retro formula approach

Question 16

Reasons PDLD ratios calculated using the retro formula and empirical approaches could diverge (2)

Answer 16

1. avg retro parameters are changing over time
2. worse (better) than expected loss experience can cause a larger portion of loss to be outside (inside) retro/per accident bounds than predicted

Question 17

Cumulative PDLD ratio

Answer 17

weighted average with weights = incremental % emerged

Question 18

Interpretation of the cumulative PDLD (CPDLD) ratio

Answer 18

amount of premium insurer can expect to collect per dollar of loss yet to emerge

Question 19

Reasons the CPDLD ratio is usually greater than 1 at the first adjustment (3)

Answer 19

1. 1st retro premium includes the basic premium
2. small portion of loss limited at early maturities
3. LCF and tax multiplier result in more than a dollar of premium per dollar of loss

Question 20

Expected future premium

Answer 20

expected future premium = CPDLD ratio * expected future loss

Question 21

Ultimate premium

Answer 21

ultimate premium = expected future premium + booked premium from prior adjustments

Question 22

Reasons that current booked premium may not = booked premium from prior adjustments (3)

Answer 22

1. differences in timing of retro adjustments
2. minor premium adjustments
3. interim premium booking b/w regularly scheduled retro adjustments

Question 23

Advantages of the PDLD method (3)

Feldblum

Answer 23

1. easy to explain b/c it is modeled directly on retro rating formula
2. emphasis on premium responsiveness parallels RBC loss-sensitive contract offset in UW risk charges and loss-sensitive contract in part 7 of schedule P
3. useful when retro rating parameters adjust indications from other methods

Question 24

What is covered in the basic premium (2)

Answer 24

1. UW and acquisition expenses

2. insurance charge and excess loss charge

Question 25

Description of Fitzgibbon’s method and Berry’s adjustment

Answer 25

plots retro premium against incurred loss (both as % of standard premium)

y = A + Bx where A = basic premium % and B = premium responsiveness

Berry adds a credibility weighting for actual experience

Question 26

Problem with Fitzgibbon’s method

Answer 26

ignores actual experience

Question 27

Teng and Perkins’ graph and Feldblum’s enhancement

Answer 27

Teng and Perkins - retro premium against incurred losses (both as % of standard premium) series of line segments with decreasing slope that passes through the origin*

Feldblum - removes avg basic premium so graph has an intercept at the basic premium amt

Question 28

What slope represents and why line segments have decreasing slopes in Teng and Perkins/Feldblum graphs

Answer 28

slope = premium responsiveness

decreases over time because a larger percent of loss is excluded from rating due to loss limits and maximum premiums