Reconstructing the evolutionary history of a set of species is a central task in computational biology. In real data, it is often the case that some information is missing: the Incomplete Directed Perfect Phylogeny (IDPP) problem asks, given a collection of species described by a set of binary characters with some unknown states, to complete the missing states in such a way that the result can be explained with a directed perfect phylogeny. Pe’er et al. [SICOMP 2004] proposed a solution that takes O~ (nm) time (the O~ (· ) notation suppresses polylog factors) for n species and m characters. Their algorithm relies on pre-existing dynamic connectivity data structures: a computational study recently conducted by Fernández-Baca and Liu showed t...
A phylogeny is a tree capturing evolution and ancestral relationships of a set of taxa (e.g., specie...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
3siReconstructing the evolutionary history of a set of species is a central task in computational bi...
Reconstructing the evolutionary history of a set of species is a central task in computational biolo...
Abstract. We study a problem that arises in computational biology, when wishing to reconstruct the p...
This work is based on the paper ‘Incomplete perfect phylogeny ’ by Pe’er et al. (2000). The goal of ...
We study two problems in computational phylogenetics. The first is tree compatibility. The input is ...
The Perfect Phylogeny Problem is a classical problem in computational evolutionary biology, in which...
We present an algorithm for determining whether a set of species, described by the characters they e...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
The binary perfect phylogeny model is too restrictive to model biological events such as back mutati...
Abstract. We consider the problem of reconstructing near-perfect phylogenetic trees using binary cha...
Abstract. We consider the problem of reconstructing near-perfect phy-logenetic trees using binary ch...
AbstractThe binary perfect phylogeny model is too restrictive to model biological events such as bac...
A phylogeny is a tree capturing evolution and ancestral relationships of a set of taxa (e.g., specie...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
3siReconstructing the evolutionary history of a set of species is a central task in computational bi...
Reconstructing the evolutionary history of a set of species is a central task in computational biolo...
Abstract. We study a problem that arises in computational biology, when wishing to reconstruct the p...
This work is based on the paper ‘Incomplete perfect phylogeny ’ by Pe’er et al. (2000). The goal of ...
We study two problems in computational phylogenetics. The first is tree compatibility. The input is ...
The Perfect Phylogeny Problem is a classical problem in computational evolutionary biology, in which...
We present an algorithm for determining whether a set of species, described by the characters they e...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
The binary perfect phylogeny model is too restrictive to model biological events such as back mutati...
Abstract. We consider the problem of reconstructing near-perfect phylogenetic trees using binary cha...
Abstract. We consider the problem of reconstructing near-perfect phy-logenetic trees using binary ch...
AbstractThe binary perfect phylogeny model is too restrictive to model biological events such as bac...
A phylogeny is a tree capturing evolution and ancestral relationships of a set of taxa (e.g., specie...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...