The evolution of the next generation sequencing technology increases the demand for efficient solutions, in terms of space and time, for several bioinformatics problems. This paper presents a practical and easy-to-implement solution for one of these problems, namely, the all-pairs suffix-prefix problem, using a compact prefix tree. The paper demonstrates an efficient construction of this time-efficient and space-economical tree data structure. The paper presents techniques for parallel implementations of the proposed solution. Experimental evaluation indicates superior results in terms of space and time over existing solutions. Results also show that the proposed technique is highly scalable in a parallel execution environment.NPRP Grant no...
Motivation: Next-generation sequencing (NGS) has revolutionized biomedical research in the past deca...
We investigate the application of trie-based data structures, suffix trees and suffix arrays in the ...
In recent years, bioinformatics becomes an important research field because there are more and more ...
The evolution of the next generation sequencing technology increases the demand for efficient soluti...
The all-pairs suffix-prefix matching problem is a basic problem in string processing. It has an appl...
All-pairs suffix-prefix matching is an important part of DNA sequence assembly where it is the most ...
The all-pairs suffix-prefix matching problem is a basic problem in string processing. It has an appl...
We show how to parallelize the optimal algorithm proposed by Tustumi et al. [19] to solve the all-pa...
AbstractFinding approximate overlaps is the first phase of many sequence assembly methods. Given a s...
The next-generation sequencing (NGS) technology outputs a huge number of sequences (reads) that requ...
Motivation: Next generation sequencing (NGS) has revolutionized biomedical research in the last deca...
This dissertation proposes a novel tree structure, Error Tree (ET), to more efficiently solve the Ap...
International audienceComputing suffix-prefix overlaps for a large collection of strings is a fundam...
This thesis presents an application of a generalized suffix tree extended by the use of frequency of...
Suffix trees, which are trie structures that presentthe suffixes of sequences (e.g., strings), are w...
Motivation: Next-generation sequencing (NGS) has revolutionized biomedical research in the past deca...
We investigate the application of trie-based data structures, suffix trees and suffix arrays in the ...
In recent years, bioinformatics becomes an important research field because there are more and more ...
The evolution of the next generation sequencing technology increases the demand for efficient soluti...
The all-pairs suffix-prefix matching problem is a basic problem in string processing. It has an appl...
All-pairs suffix-prefix matching is an important part of DNA sequence assembly where it is the most ...
The all-pairs suffix-prefix matching problem is a basic problem in string processing. It has an appl...
We show how to parallelize the optimal algorithm proposed by Tustumi et al. [19] to solve the all-pa...
AbstractFinding approximate overlaps is the first phase of many sequence assembly methods. Given a s...
The next-generation sequencing (NGS) technology outputs a huge number of sequences (reads) that requ...
Motivation: Next generation sequencing (NGS) has revolutionized biomedical research in the last deca...
This dissertation proposes a novel tree structure, Error Tree (ET), to more efficiently solve the Ap...
International audienceComputing suffix-prefix overlaps for a large collection of strings is a fundam...
This thesis presents an application of a generalized suffix tree extended by the use of frequency of...
Suffix trees, which are trie structures that presentthe suffixes of sequences (e.g., strings), are w...
Motivation: Next-generation sequencing (NGS) has revolutionized biomedical research in the past deca...
We investigate the application of trie-based data structures, suffix trees and suffix arrays in the ...
In recent years, bioinformatics becomes an important research field because there are more and more ...