ABy Admin
May 14'23
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 | 1,050,000 |
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.
Calculate [math]f_2[/math] , the loss development factor from the paid-loss-development triangle at duration 2.
- 1.250
- 1.500
- 1.875
- 2.150
- 2.500
Copyright 2023. The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.
ABy Admin
May 14'23
Key: B
[[math]]
\begin{aligned}
&R_{BF} = (1- \frac{1}{F}) R_{LR} + \frac{1}{f}R_{CL} \\
& 400,000 = (1-\frac{1}{f})250,000 + \frac{1}{f} 437,500 \Rightarrow f = 1.25 = \prod_{j=3}^{\infty} f_j \\
&1,120, 000 = (1- \frac{1}{f})1,200,000 + \frac{1}{f} 1,050,000 \Rightarrow f = 1.875 = \prod_{j=2}^{\infty} f_j \\
&f_2 = \frac{1.875}{1.25} = 1.5.
\end{aligned}
[[/math]]
Copyright 2023. The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.