Add to ORKGInternational audienceThis paper considers the problem of maintaining a compact representation (O(n) space) of permutation graphs under vertex and edge modifications (insertion or deletion). That representation allows us to answer adjacency queries in O(1) time. The approach is based on a fully dynamic modular decomposition algorithm for permutation graphs that works in O(n) time per edge and vertex modification. We thereby obtain a fully dynamic algorithm for the recognition of permutation graphs
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
. Starting from a permutation of f0; : : : ; n \Gamma 1g we compute in parallel with a workload of O...
International audienceThis paper considers the problem of maintaining a compact representation (O(n)...
International audienceThis paper considers the problem of maintaining a compact representation (O(n)...
AbstractThe problem of dynamically recognizing a graph property calls for efficiently deciding if an...
This work deals with dynamic maintain of geometric graph representations. It points out strong conne...
Abstract. Modular decomposition is fundamental for many important problems in algorithmic graph theo...
AbstractThe problem of dynamically recognizing a graph property calls for efficiently deciding if an...
A factorizing permutation of a given graph is simply a permutation of the vertices in which all deco...
International audienceThe first polynomial time algorithm (O(n^4)) for modular decomposition appeare...
A factorizing permutation of a given graph is simply a permutation of the vertices in which all de...
Abstract: In this paper, we solve the dynamic recognition problem for the class of P4-sparse graphs:...
AbstractWe propose dynamic algorithms and data structures for chordal graphs supporting the followin...
A factorizing permutation of a given graph is simply a permutation of its vertices of which all deco...
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
. Starting from a permutation of f0; : : : ; n \Gamma 1g we compute in parallel with a workload of O...
International audienceThis paper considers the problem of maintaining a compact representation (O(n)...
International audienceThis paper considers the problem of maintaining a compact representation (O(n)...
AbstractThe problem of dynamically recognizing a graph property calls for efficiently deciding if an...
This work deals with dynamic maintain of geometric graph representations. It points out strong conne...
Abstract. Modular decomposition is fundamental for many important problems in algorithmic graph theo...
AbstractThe problem of dynamically recognizing a graph property calls for efficiently deciding if an...
A factorizing permutation of a given graph is simply a permutation of the vertices in which all deco...
International audienceThe first polynomial time algorithm (O(n^4)) for modular decomposition appeare...
A factorizing permutation of a given graph is simply a permutation of the vertices in which all de...
Abstract: In this paper, we solve the dynamic recognition problem for the class of P4-sparse graphs:...
AbstractWe propose dynamic algorithms and data structures for chordal graphs supporting the followin...
A factorizing permutation of a given graph is simply a permutation of its vertices of which all deco...
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
We propose dynamic algorithms and data structures for chordal graphs supporting the following operat...
. Starting from a permutation of f0; : : : ; n \Gamma 1g we compute in parallel with a workload of O...