Add to ORKGWe consider the Degree-Bounded Survivable Network Design Problem: the objective is to find a minimum cost subgraph satisfying the given connectivity requirements as well as the degree bounds on the vertices. If we denote the upper bound on the degree of a vertex v by b(v), then we present an algorithm that finds a solution whose cost is at most twice the cost of the optimal solution while the degree of a degree constrained vertex v is at most 2b(v) + 2. This improves upon the results of Lau an
given a graph with costs/weights on edges and/or nodes and prescribed connectivity require-ments/dem...
AbstractIn an undirected graph G=(V,E) with a weight function w:E×V→Q+, the weighted degree dw(v;E) ...
The bounded degree maximum spanning subgraph problem arising from wireless mesh networks is studied ...
We consider degree bounded network design problems with element and vertex connectivity requirements...
In the minimum bounded degree Steiner network problem, we are given an undirected graph with an edge...
The survivable network design problem is to construct a minimum-cost subgraph satisfying certain giv...
In the survivable network design problem (SNDP), the goal is to find a minimum-cost spanning subgra...
In this thesis, we consider degree-bounded element-connectivity Survivable Network Design Problem (E...
AbstractIn the Survivable Network Design Problem (SNDP) one seeks to find a minimum cost subgraph th...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
Along with the rapid development of network communication technology and the explosive growth of the...
given a graph with costs/weights on edges and/or nodes and prescribed connectivity require-ments/dem...
AbstractIn an undirected graph G=(V,E) with a weight function w:E×V→Q+, the weighted degree dw(v;E) ...
The bounded degree maximum spanning subgraph problem arising from wireless mesh networks is studied ...
We consider degree bounded network design problems with element and vertex connectivity requirements...
In the minimum bounded degree Steiner network problem, we are given an undirected graph with an edge...
The survivable network design problem is to construct a minimum-cost subgraph satisfying certain giv...
In the survivable network design problem (SNDP), the goal is to find a minimum-cost spanning subgra...
In this thesis, we consider degree-bounded element-connectivity Survivable Network Design Problem (E...
AbstractIn the Survivable Network Design Problem (SNDP) one seeks to find a minimum cost subgraph th...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
We present polynomial-time approximation algorithms for some degree-bounded directed network design ...
Along with the rapid development of network communication technology and the explosive growth of the...
given a graph with costs/weights on edges and/or nodes and prescribed connectivity require-ments/dem...
AbstractIn an undirected graph G=(V,E) with a weight function w:E×V→Q+, the weighted degree dw(v;E) ...
The bounded degree maximum spanning subgraph problem arising from wireless mesh networks is studied ...