Date du colloque : 04/2009International audienceThe Maximum Parsimony problem aims at reconstructing a phylogenetic tree from DNA, RNA or protein sequences while minimizing the number of evolutionary changes. Much work has been devoted by the research community to solve this NP-complete problem and many algorithms and techniques have been devised in order to find high quality solutions with reasonable computational resources. In this paper we present a memetic algorithm (implemented in the software Hydra) which is based on an integration of an effective local search operator with a specific topological tree crossover operator. We report computational results of Hydra on a set of 12 benchmark instances from the literature and demonstrat...
Phylogenetic trees are commonly reconstructed based on hard optimization problems such as Maximum pa...
Phylogenies play a major role in representing the interrelationships among biological entities. Many...
Phylogenetic reconstruction from gene rearrangements has attracted increasing attention from biologi...
The Maximum Parsimony problem aims at reconstructing a phylogenetic tree from DNA, RNA or protein se...
Phylogenetic reconstruction aims at reconstructing the evolutionary history of a set of species, rep...
Four local search algorithms are investigated for the phylogenetic tree reconstruction problem under...
Phylogenetic reconstruction is considered a central underpinning of diverse fields like ecology, mol...
The benefits of experimental algorithmics and algorithm engineering need to be extended to applicati...
The Maximum Parsimony problem aims at reconstructing a phylogenetic tree from DNA sequences while mi...
Abstract. Reconstruction of phylogenetic trees is a fundamental prob-lem in computational biology. W...
Abstract The Maximum Parsimony (MP) problem aims at reconstructing a phy-logenetic tree from DNA seq...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Phylogenies play a major role in representing the interrelationships among biological entities. Many...
Phylogenetic trees are commonly reconstructed based on hard optimization problems such as Maximum pa...
Phylogenies play a major role in representing the interrelationships among biological entities. Many...
Phylogenetic reconstruction from gene rearrangements has attracted increasing attention from biologi...
The Maximum Parsimony problem aims at reconstructing a phylogenetic tree from DNA, RNA or protein se...
Phylogenetic reconstruction aims at reconstructing the evolutionary history of a set of species, rep...
Four local search algorithms are investigated for the phylogenetic tree reconstruction problem under...
Phylogenetic reconstruction is considered a central underpinning of diverse fields like ecology, mol...
The benefits of experimental algorithmics and algorithm engineering need to be extended to applicati...
The Maximum Parsimony problem aims at reconstructing a phylogenetic tree from DNA sequences while mi...
Abstract. Reconstruction of phylogenetic trees is a fundamental prob-lem in computational biology. W...
Abstract The Maximum Parsimony (MP) problem aims at reconstructing a phy-logenetic tree from DNA seq...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Reconstruction of phylogenetic trees is a fundamental problem in computational biology. While excell...
Phylogenies play a major role in representing the interrelationships among biological entities. Many...
Phylogenetic trees are commonly reconstructed based on hard optimization problems such as Maximum pa...
Phylogenies play a major role in representing the interrelationships among biological entities. Many...
Phylogenetic reconstruction from gene rearrangements has attracted increasing attention from biologi...