[[abstract]]The past few years have witnessed several exciting results on compressed representation of a string T that supports efficient pattern matching, and the space complexity has been reduced to |T| Hk (T) + o (|T| log σ) bits, where Hk(T) denotes the kth-order empirical entropy of T, and σ is the size of the alphabet. In this paper we study compressed representation for another classical problem of string indexing, which is called dictionary matching in the literature. Precisely, a collection D of strings (called patterns) of total length n is to be indexed so that given a text T, the occurrences of the patterns in T can be found efficiently. In this paper we show how to exploit a sampling technique to compress the existing O(n)-word...
This paper revisits the problem of indexing a text S[1.,n] to support searching substrings in S that...
We study a method by Ferragina and Manzini for creating an index of a text. This index allows us to ...
Given a sequence S = s_1 s_2 ... s_n of integers smaller than r = O(polylog(n)), we show how S can b...
The past few years have witnessed several exciting results on compressed representation of a string ...
The original publication is available at www.springerlink.comThe past few years have witnessed sever...
(c) 2008 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
DOI: 10.1109/DCC.2011.18Given a set D of d patterns of total length n, the dictionary matching probl...
[[abstract]]Let T be a string with n characters over an alphabet of constant size. A recent breakthr...
[[abstract]]A new trend in the field of pattern matching is to design indexing data structures which...
We design two compressed data structures for the full-text indexing problem that support efficient s...
The rise of repetitive datasets has lately generated a lot of interest in compressed self-indexes ba...
In this paper we design two compressed data structures for the full-text indexing problem. These da...
In this paper we present different solutions for the problem of indexing a dictionary of strings in ...
We revisit the problem of indexing a string S[1..n] to support finding all substrings in S that matc...
The date of receipt and acceptance will be inserted by the editor Abstract A compressed full-text se...
This paper revisits the problem of indexing a text S[1.,n] to support searching substrings in S that...
We study a method by Ferragina and Manzini for creating an index of a text. This index allows us to ...
Given a sequence S = s_1 s_2 ... s_n of integers smaller than r = O(polylog(n)), we show how S can b...
The past few years have witnessed several exciting results on compressed representation of a string ...
The original publication is available at www.springerlink.comThe past few years have witnessed sever...
(c) 2008 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
DOI: 10.1109/DCC.2011.18Given a set D of d patterns of total length n, the dictionary matching probl...
[[abstract]]Let T be a string with n characters over an alphabet of constant size. A recent breakthr...
[[abstract]]A new trend in the field of pattern matching is to design indexing data structures which...
We design two compressed data structures for the full-text indexing problem that support efficient s...
The rise of repetitive datasets has lately generated a lot of interest in compressed self-indexes ba...
In this paper we design two compressed data structures for the full-text indexing problem. These da...
In this paper we present different solutions for the problem of indexing a dictionary of strings in ...
We revisit the problem of indexing a string S[1..n] to support finding all substrings in S that matc...
The date of receipt and acceptance will be inserted by the editor Abstract A compressed full-text se...
This paper revisits the problem of indexing a text S[1.,n] to support searching substrings in S that...
We study a method by Ferragina and Manzini for creating an index of a text. This index allows us to ...
Given a sequence S = s_1 s_2 ... s_n of integers smaller than r = O(polylog(n)), we show how S can b...