We initiate the study of sorting permutations using prefix block-interchanges, which exchange any prefix of a permutation with another non-intersecting interval. The goal is to transform a given permutation into the identity permutation using as few such operations as possible. We give a 2-approximation algorithm for this problem, show how to obtain improved lower and upper bounds on the corresponding distance, and determine the largest possible value for that distance
AbstractA transposition is an operation that exchanges two adjacent substrings. Transpositions over ...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
Given a permutation pi, the application of prefix reversal f((i)) to pi reverses the order of the fi...
15 pages, to appear in ISAAC 2020International audienceWe initiate the study of sorting permutations...
International audienceA number of fields, including the study of genome rearrangements and the desig...
A number of fields, including genome rearrangements and interconnection network design, are concerne...
AbstractGiven a permutation π, a block-move is an operation that switches two adjacent blocks of ele...
The problem of sorting by transpositions asks for a sequence of adjacent interval exchanges that sor...
[[abstract]]Given a chromosome represented by a permutation of genes, a block-interchange is propose...
A Genome rearrangement problem studies large-scale mutations on a set of DNAs in living organisms. V...
Given a permutation $\pi$, the application of prefix reversal $f^{(i)}$ to $\pi$ reverses the order ...
Reversals and transpositions are the most common kinds of genome rearrangements, which allow us to e...
We study the problem of computing the minimal number of adjacent, non-intersecting block interchange...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
AbstractA transposition is an operation that exchanges two adjacent substrings. Transpositions over ...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
Given a permutation pi, the application of prefix reversal f((i)) to pi reverses the order of the fi...
15 pages, to appear in ISAAC 2020International audienceWe initiate the study of sorting permutations...
International audienceA number of fields, including the study of genome rearrangements and the desig...
A number of fields, including genome rearrangements and interconnection network design, are concerne...
AbstractGiven a permutation π, a block-move is an operation that switches two adjacent blocks of ele...
The problem of sorting by transpositions asks for a sequence of adjacent interval exchanges that sor...
[[abstract]]Given a chromosome represented by a permutation of genes, a block-interchange is propose...
A Genome rearrangement problem studies large-scale mutations on a set of DNAs in living organisms. V...
Given a permutation $\pi$, the application of prefix reversal $f^{(i)}$ to $\pi$ reverses the order ...
Reversals and transpositions are the most common kinds of genome rearrangements, which allow us to e...
We study the problem of computing the minimal number of adjacent, non-intersecting block interchange...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
AbstractA transposition is an operation that exchanges two adjacent substrings. Transpositions over ...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
Given a permutation pi, the application of prefix reversal f((i)) to pi reverses the order of the fi...