Given a complete undirected graph with non-negative costs on the edges, the 2-Edge Connected Subgraph Problem consists in finding the minimum cost spanning 2-edge connected subgraph (where multi-edges are allowed in the solution). A lower bound for the minimum cost 2-edge connected subgraph is obtained by solving the linear programming relaxation for this problem, which coincides with the subtour relaxation of the traveling salesman problem when the costs satisfy the triangle inequality. The simplest fractional solutions to the subtour relaxation are the 1/2-integral solutions in which every edge variable has a value which is a multiple of 1/2. The authors show that the minimum cost of a 2-edge connected subgraph is at most four-thirds the ...
We give a 17 12-approximation algorithm for the following NP-hard problem: Given a simple undirected...
AbstractThe k-connectivity problem is to find a minimum-cost k-edge- or k-vertex-connected spanning ...
We consider the problem of finding the minimum 2-vertex connected spanning subgraph in a given graph...
Given a complete undirected graph with non-negative costs on the edges, the 2-Edge Connected Subgrap...
Consider the 2-matching problem defined on the complete graph, with edge costs which satisfy the tri...
This thesis provides new bounds on the strength of the subtour relaxation of the Traveling Salesman ...
Given G = (V;E) an undirected graph and a nonnegative cost function c : E → ℚ, the 2-edge connected ...
Let G=(V,E) be an undirected 2-edge connected graph with weights on its edges and nodes. The minimum...
A graph is said to be 2-edge-connected if it remains connected after the deletion of any single edge...
AbstractLet G=(V,E) be a undirected k-edge connected graph with weights ce on edges and wv on nodes....
This paper studies the problem of finding a two-edge connected spanning subgraph of minimum weight. ...
A salesman wishes to make a journey, visiting each of $n$ cities exactly once and finishing at the c...
AbstractGiven a complete graph with edge weights that satisfy the triangle inequality, we bound the ...
The problem of finding the minimum size 2-connected subgraph is a classical problem in network desig...
We give a 17 12 -approximation algorithm for the following NP-hard problem: Given an undirected gra...
We give a 17 12-approximation algorithm for the following NP-hard problem: Given a simple undirected...
AbstractThe k-connectivity problem is to find a minimum-cost k-edge- or k-vertex-connected spanning ...
We consider the problem of finding the minimum 2-vertex connected spanning subgraph in a given graph...
Given a complete undirected graph with non-negative costs on the edges, the 2-Edge Connected Subgrap...
Consider the 2-matching problem defined on the complete graph, with edge costs which satisfy the tri...
This thesis provides new bounds on the strength of the subtour relaxation of the Traveling Salesman ...
Given G = (V;E) an undirected graph and a nonnegative cost function c : E → ℚ, the 2-edge connected ...
Let G=(V,E) be an undirected 2-edge connected graph with weights on its edges and nodes. The minimum...
A graph is said to be 2-edge-connected if it remains connected after the deletion of any single edge...
AbstractLet G=(V,E) be a undirected k-edge connected graph with weights ce on edges and wv on nodes....
This paper studies the problem of finding a two-edge connected spanning subgraph of minimum weight. ...
A salesman wishes to make a journey, visiting each of $n$ cities exactly once and finishing at the c...
AbstractGiven a complete graph with edge weights that satisfy the triangle inequality, we bound the ...
The problem of finding the minimum size 2-connected subgraph is a classical problem in network desig...
We give a 17 12 -approximation algorithm for the following NP-hard problem: Given an undirected gra...
We give a 17 12-approximation algorithm for the following NP-hard problem: Given a simple undirected...
AbstractThe k-connectivity problem is to find a minimum-cost k-edge- or k-vertex-connected spanning ...
We consider the problem of finding the minimum 2-vertex connected spanning subgraph in a given graph...