Exercise
An actuary is establishing reserves for a group of policies as of December 31, CY3. You are given the following table of reserve estimates for AY1 and AY2:
| Reserve estimates as of December 31, CY3 | |||
| [math]R_{BF}[/math] | [math]R_{LR}[/math] | [math]R_{CL}[/math] | |
| AY1 | 400,000 | 250,000 | 437,500 |
| AY2 | 1,120,000 | 1,200,000 | ? |
where [math]R_{BF}[/math] is the loss reserve under the Bornhuetter-Ferguson method, [math]R_{LR}[/math] is the loss reserve under the Expected Loss Ratio method, and [math]R_{CL}[/math] is the loss reserve under the Chain Ladder method.
If [math]f_2[/math], the loss development factor from the paid-loss-development triangle at duration 2, equals 1.05, determine the reserve estimate as of December 31, CY3 using the chain ladder method.
- 950,000
- 1,050,000
- 1,100,000
- 1,150,000
- 1,200,000
Solution: C
Step 1: Calculate the cumulative development factors for AY1 and AY2
The cumulative factor for AY1 equals [math]F_2[/math] and the cumulative development factor for AY2 equals [math]F_1 = F_2 * f_2 [/math] with [math]f_2 = 1.05 [/math]. To calculate [math]F_2[/math], we use the equation:
where [math]R_{BF}[/math] is the reserve estimate for AY1 using the Bornhuetter-Ferguson method.
Step 2: Calculate the reserve for AY2 using the chain ladder method
We use the same formula as above but for AY2: