The use of planning for computing genome edit distances was suggested by Erdem and Tillier in 2005, but to date there has been no study of how well domain-independent planners are able to solve this problem. This paper reports on experiments with several PDDL formulations of the problem, using several state-of-the-art planners. The main observations are, first, that the problem formulation that is easiest for planners to deal with is not the obvious one, and, second, that plan quality � in particular consistent and assured plan quality � remains the biggest challenge
© 2017 The Author(s). Background: Edit distance is a well established metric to quantify how dissimi...
Evolution operates on whole genomes through direct rearrangements of genes, such as inversions, tran...
Genome Rearrangements addresses the problem of finding the minimum number of global operations, such...
The use of planning for computing genome edit distances was suggested by Erdem and Tillier in 2005, ...
AbstractAs more and more genomes are sequenced, evolutionary biologists are becoming increasingly in...
As more and more genomes are sequenced, evolutionary biologists are becoming increasingly interested...
Computing the edit distance between two genomes under certain operations is a basic problem in the s...
The graph traversal edit distance (GTED), introduced by Ebrahimpour Boroojeny et al. (2018), is an e...
The genomic distance problem in the Hannenhalli-Pevzner (HP) theory is the following: Given two geno...
AbstractWith the advent of large-scale DNA physical mapping and sequencing, studies of genome rearra...
International audienceBackground: Combinatorial works on genome rearrangements have so far ignored t...
The dissertation covers two problems motivated by computational biology: genome rearrangements, and ...
Large-scale genome rearrangements occur frequently in species evolution and cancer evolution. While ...
AbstractThe genomic distance problem in the Hannenhalli–Pevzner (HP) theory is the following: Given ...
International audienceGiven two genomes possibly with duplicate genes, the exemplar distance problem...
© 2017 The Author(s). Background: Edit distance is a well established metric to quantify how dissimi...
Evolution operates on whole genomes through direct rearrangements of genes, such as inversions, tran...
Genome Rearrangements addresses the problem of finding the minimum number of global operations, such...
The use of planning for computing genome edit distances was suggested by Erdem and Tillier in 2005, ...
AbstractAs more and more genomes are sequenced, evolutionary biologists are becoming increasingly in...
As more and more genomes are sequenced, evolutionary biologists are becoming increasingly interested...
Computing the edit distance between two genomes under certain operations is a basic problem in the s...
The graph traversal edit distance (GTED), introduced by Ebrahimpour Boroojeny et al. (2018), is an e...
The genomic distance problem in the Hannenhalli-Pevzner (HP) theory is the following: Given two geno...
AbstractWith the advent of large-scale DNA physical mapping and sequencing, studies of genome rearra...
International audienceBackground: Combinatorial works on genome rearrangements have so far ignored t...
The dissertation covers two problems motivated by computational biology: genome rearrangements, and ...
Large-scale genome rearrangements occur frequently in species evolution and cancer evolution. While ...
AbstractThe genomic distance problem in the Hannenhalli–Pevzner (HP) theory is the following: Given ...
International audienceGiven two genomes possibly with duplicate genes, the exemplar distance problem...
© 2017 The Author(s). Background: Edit distance is a well established metric to quantify how dissimi...
Evolution operates on whole genomes through direct rearrangements of genes, such as inversions, tran...
Genome Rearrangements addresses the problem of finding the minimum number of global operations, such...