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CPM
2005
Springer

A Fast Algorithm for Approximate String Matching on Gene Sequences

14 years 6 months ago
A Fast Algorithm for Approximate String Matching on Gene Sequences
Abstract. Approximate string matching is a fundamental and challenging problem in computer science, for which a fast algorithm is highly demanded in many applications including text processing and DNA sequence analysis. In this paper, we present a fast algorithm for approximate string matching, called FAAST. It aims at solving a popular variant of the approximate string matching problem, the k-mismatch problem, whose objective is to find all occurrences of a short pattern in a long text string with at most k mismatches. FAAST generalizes the well-known Tarhio-Ukkonen algorithm by requiring two or more matches when calculating shift distances, which makes the approximate string matching process significantly faster than the Tarhio-Ukkonen algorithm. Theoretically, we prove that FAAST on average skips more characters than the Tarhio-Ukkonen algorithm in a single shift, and makes fewer character comparisons in an entire matching process. Experiments on both simulated data sets and real ...
Zheng Liu, Xin Chen, James Borneman, Tao Jiang
Added 26 Jun 2010
Updated 26 Jun 2010
Type Conference
Year 2005
Where CPM
Authors Zheng Liu, Xin Chen, James Borneman, Tao Jiang
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