In a recent article, Nakhleh, Ringe and Warnow introduced perfect phylogenetic networks—a model of language evolution where languages do not evolve via clean speciation—and formulated a set of problems for their accurate reconstruction. Their new methodology assumes networks, rather than trees, as the correct model to capture the evolutionary history of natural languages. They proved the NP-hardness of the problem of testing whether a network is a perfect phy-logenetic one for characters exhibiting at least three states, leaving open the case of binary characters, and gave a straightforward brute-force parameterized algorithm for the problem of running time O(3kn), where k is the number of bidirectional edges in the network and n is its siz...
textPhylogenies, i.e., evolutionary histories, play a major role in representing the relationships ...
International audienceThis article presents an innovative approach to phylogenies based on the reduc...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
Abstract. We consider the problem of reconstructing near-perfect phylogenetic trees using binary cha...
We provide details for how we generated the data for the simulation study, including how we generate...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
Abstract.—A well-known approach to inferring phylogenies involves finding a phylogeny with the large...
Abstract. We consider the problem of reconstructing near-perfect phy-logenetic trees using binary ch...
Abstract—Phylogenies—the evolutionary histories of groups of organisms—play a major role in represen...
Recently much attention has been devoted to the construction of phylogenetic networks which generali...
Recently, much attention has been devoted to the construction of phylogenetic networks which general...
In evolutionary biology, a character is a function χ from a set X of present-day species into a fini...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
Van Iersel, Moulton, and Murakami (2020) proved that a level-2 binary phylogenetic network can be un...
textPhylogenies, i.e., evolutionary histories, play a major role in representing the relationships ...
International audienceThis article presents an innovative approach to phylogenies based on the reduc...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
Abstract. We consider the problem of reconstructing near-perfect phylogenetic trees using binary cha...
We provide details for how we generated the data for the simulation study, including how we generate...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
Abstract.—A well-known approach to inferring phylogenies involves finding a phylogeny with the large...
Abstract. We consider the problem of reconstructing near-perfect phy-logenetic trees using binary ch...
Abstract—Phylogenies—the evolutionary histories of groups of organisms—play a major role in represen...
Recently much attention has been devoted to the construction of phylogenetic networks which generali...
Recently, much attention has been devoted to the construction of phylogenetic networks which general...
In evolutionary biology, a character is a function χ from a set X of present-day species into a fini...
We consider the problem of reconstructing near-perfect phylogenetic trees using binary character sta...
Van Iersel, Moulton, and Murakami (2020) proved that a level-2 binary phylogenetic network can be un...
textPhylogenies, i.e., evolutionary histories, play a major role in representing the relationships ...
International audienceThis article presents an innovative approach to phylogenies based on the reduc...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...