String matching bounds via coding

Paul C. Shields

doi:10.1214/aop/1024404290

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Home > Journals > Ann. Probab. > Volume 25 > Issue 1 > Article

January 1997 String matching bounds via coding

Paul C. Shields

Ann. Probab. 25(1): 329-336 (January 1997). DOI: 10.1214/aop/1024404290

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Abstract

It is known that the length $L(x_1^n)$ of the longest block appearing at least twice in a randomly chosen sample path of length $n$ drawn from an i.i.d. process is asymptotically almost surely equal to $C \log n$, where the constant $C$ depends on the process. A simple coding argument will be used to show that for a class of processes called the finite energy processes, $L(x_1^n)$ is almost surely upper bounded by $C \log n$, where $C$ is a constant. While the coding technique does not yield the exact constant $C$, it does show clearly what is needed to obtain log $n$ bounds.