Adaptive Computation of the Swap-Insert Correction Distance

April 27, 2015 Β· Declared Dead Β· πŸ› arXiv.org

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Authors JΓ©rΓ©my Barbay, Pablo PΓ©rez-Lantero arXiv ID 1504.07298 Category cs.DS: Data Structures & Algorithms Citations 5 Venue arXiv.org Last Checked 4 months ago
Abstract
The Swap-Insert Correction distance from a string $S$ of length $n$ to another string $L$ of length $m\geq n$ on the alphabet $[1..d]$ is the minimum number of insertions, and swaps of pairs of adjacent symbols, converting $S$ into $L$. Contrarily to other correction distances, computing it is NP-Hard in the size $d$ of the alphabet. We describe an algorithm computing this distance in time within $O(d^2 nm g^{d-1})$, where there are $n_Ξ±$ occurrences of $Ξ±$ in $S$, $m_Ξ±$ occurrences of $Ξ±$ in $L$, and where $g=\max_{Ξ±\in[1..d]} \min\{n_Ξ±,m_Ξ±-n_Ξ±\}$ measures the difficulty of the instance. The difficulty $g$ is bounded by above by various terms, such as the length of the shortest string $S$, and by the maximum number of occurrences of a single character in $S$. Those results illustrate how, in many cases, the correction distance between two strings can be easier to compute than in the worst case scenario.
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