AbstractWe present an algorithm which given a source node and a set of n−1 target nodes in the (n,k)-star graph Sn,k, where all nodes are distinct, builds a collection of n−1 node-disjoint paths, one from each target node to the source. The collection of paths output from the algorithm is such that each path has length at most 6k−7, and the algorithm has time complexity O(k2n2)
In this paper, we investigate the properties of cycles for node representation in the star graph. Cy...
International audienceGiven a connected graph G of m edges and n vertices, we consider the basic pro...
International audienceIn the Directed Disjoint Paths problem, we are given a digraph D and a set of ...
We present an algorithm which given a source node and a set of n − 1 target nodes in the (n, k)-star...
AbstractWe present an algorithm which given a source node and a set of n−1 target nodes in the (n,k)...
We present an algorithm which given a source node and a set of n−1 target nodes in the (n,k)-star gr...
[[abstract]]This work describes a novel routing algorithm for constructing a container of width n - ...
AbstractIn practice, it is important to construct node-disjoint paths in networks, because they can ...
Part 5: Distributed AlgorithmsInternational audienceThe purpose of the paper is to present the first...
We consider the problems of selection, routing and sorting on an n-star graph (with n! nodes), an in...
Abstract. For the purpose of large scale computing, we are inter-ested in linking computers into lar...
In a (d, k)-graph problem, the Petersen graph has a maximum of 10 nodes at degree 3 and diameter 2. ...
Selection, Routing and Sorting on the Star Graph We consider the problems of selection, routing and ...
In this paper, a method for constructing node-disjoint (parallel) paths in k-ary n-cube interconnect...
Abstract. Given an acyclic directed graph and two distinct nodes s and t, we consider the problem of...
In this paper, we investigate the properties of cycles for node representation in the star graph. Cy...
International audienceGiven a connected graph G of m edges and n vertices, we consider the basic pro...
International audienceIn the Directed Disjoint Paths problem, we are given a digraph D and a set of ...
We present an algorithm which given a source node and a set of n − 1 target nodes in the (n, k)-star...
AbstractWe present an algorithm which given a source node and a set of n−1 target nodes in the (n,k)...
We present an algorithm which given a source node and a set of n−1 target nodes in the (n,k)-star gr...
[[abstract]]This work describes a novel routing algorithm for constructing a container of width n - ...
AbstractIn practice, it is important to construct node-disjoint paths in networks, because they can ...
Part 5: Distributed AlgorithmsInternational audienceThe purpose of the paper is to present the first...
We consider the problems of selection, routing and sorting on an n-star graph (with n! nodes), an in...
Abstract. For the purpose of large scale computing, we are inter-ested in linking computers into lar...
In a (d, k)-graph problem, the Petersen graph has a maximum of 10 nodes at degree 3 and diameter 2. ...
Selection, Routing and Sorting on the Star Graph We consider the problems of selection, routing and ...
In this paper, a method for constructing node-disjoint (parallel) paths in k-ary n-cube interconnect...
Abstract. Given an acyclic directed graph and two distinct nodes s and t, we consider the problem of...
In this paper, we investigate the properties of cycles for node representation in the star graph. Cy...
International audienceGiven a connected graph G of m edges and n vertices, we consider the basic pro...
International audienceIn the Directed Disjoint Paths problem, we are given a digraph D and a set of ...