Lorden's inequality

In probability theory, Lorden's inequality is a bound for the moments of overshoot for a stopped sum of random variables, first published by Gary Lorden in 1970.^[1] Overshoots play a central role in renewal theory.^[2]

Statement of inequality

Let X₁, X₂, ... be independent and identially distributed positive random variables and define the sum S_n = X₁ + X₂ + ... + X_n. Consider the first time S_n exceeds a given value b and at that time compute R_b = S_n − b. R_b is called the overshoot or excess at b. Lorden's inequality states that the expectation of this overshoot is bounded as^[2]

${\displaystyle \operatorname {E} (R_{b})\leq {\frac {\operatorname {E} (X^{2})}{\operatorname {E} (X)}}.}$

Proof

Three proofs are known due to Lorden,^[1] Carlsson and Nerman^[3] and Chang.^[4]

See also

• Wald's equation

References

1. Lorden, G. (1970). "On Excess over the Boundary". The Annals of Mathematical Statistics. 41 (2): 520. doi:10.1214/aoms/1177697092. JSTOR 2239350.
2. Spouge, John L. (2007). "Inequalities on the overshoot beyond a boundary for independent summands with differing distributions". Statistics & Probability Letters. 77 (14): 1486–1489. doi:10.1016/j.spl.2007.02.013. PMC 2683021. PMID 19461943.
3. Carlsson, Hasse; Nerman, Olle (1986). "An Alternative Proof of Lorden's Renewal Inequality". Advances in Applied Probability. 18 (4). Applied Probability Trust: 1015–1016. JSTOR 1427260.
4. Chang, J. T. (1994). "Inequalities for the Overshoot". The Annals of Applied Probability. 4 (4): 1223. doi:10.1214/aoap/1177004913.