Gupta (SODA'01) considered the Steiner Point Removal (SPR) problem on trees. Given an edge-weighted tree T and a subset 5 of vertices called terminals in the tree, find an edge-weighted tree T S on the vertex set S such that the distortion of the distances between vertices in S is small. His algorithm guarantees that for any finite tree, the distortion incurred is at most 8. Moreover, a family of trees, where the leaves are the terminals, is presented such that the distortion incurred by any algorithm for SPR is at least 4(1 -o(1)). In this paper, we close the gap and show that the upper bound 8 is essentially tight. In particular, for complete binary trees in which all edges have unit weight, we show that the distortion incurred by any alg...
We study the approximability of three versions of the Steiner tree problem. For the first one where ...
AbstractThis paper gives the average distance analysis for the Euclidean tree constructed by a simpl...
Consider an edge-weighted tree T = (V, E, w : E →tl; R+), in which a subset R of the nodes (called ...
Abstract. Gupta (SODA’01) considered the Steiner Point Removal (SPR) problem on trees. Given an edge...
Gupta (SODA’01) considered the Steiner Point Removal (SPR) problem on trees. Given an edge-weighted ...
AbstractThe Steiner tree problem on weighted graphs seeks a minimum weight subtree containing a give...
Given a family of graphs F, and graph G ∈ F with weights on the edges, the vertices of G are partiti...
The Steiner tree problem is de ned as follows - given a graph G = (V; E) and a subset X V of termi...
The Steiner tree problem on weighted graphs seeks a minimum weight subtree containing a given subset...
The Steiner tree problem, named after a Swiss mathematician Jacob Steiner (1796–1863), is a problem ...
[[abstract]]This paper gives the average distance analysis for the Euclidean tree constructed by a s...
The Steiner tree problem asks for a shortest subgraph connecting a given set of terminals in a graph...
The Steiner tree problem asks for a shortest subgraph connecting a given set of terminals in a graph...
Our main result is that the Steiner Point Removal (SPR) problem can always be solved with polylogari...
The Steiner tree problem asks for the shortest tree connecting a given set of terminal points in a m...
We study the approximability of three versions of the Steiner tree problem. For the first one where ...
AbstractThis paper gives the average distance analysis for the Euclidean tree constructed by a simpl...
Consider an edge-weighted tree T = (V, E, w : E →tl; R+), in which a subset R of the nodes (called ...
Abstract. Gupta (SODA’01) considered the Steiner Point Removal (SPR) problem on trees. Given an edge...
Gupta (SODA’01) considered the Steiner Point Removal (SPR) problem on trees. Given an edge-weighted ...
AbstractThe Steiner tree problem on weighted graphs seeks a minimum weight subtree containing a give...
Given a family of graphs F, and graph G ∈ F with weights on the edges, the vertices of G are partiti...
The Steiner tree problem is de ned as follows - given a graph G = (V; E) and a subset X V of termi...
The Steiner tree problem on weighted graphs seeks a minimum weight subtree containing a given subset...
The Steiner tree problem, named after a Swiss mathematician Jacob Steiner (1796–1863), is a problem ...
[[abstract]]This paper gives the average distance analysis for the Euclidean tree constructed by a s...
The Steiner tree problem asks for a shortest subgraph connecting a given set of terminals in a graph...
The Steiner tree problem asks for a shortest subgraph connecting a given set of terminals in a graph...
Our main result is that the Steiner Point Removal (SPR) problem can always be solved with polylogari...
The Steiner tree problem asks for the shortest tree connecting a given set of terminal points in a m...
We study the approximability of three versions of the Steiner tree problem. For the first one where ...
AbstractThis paper gives the average distance analysis for the Euclidean tree constructed by a simpl...
Consider an edge-weighted tree T = (V, E, w : E →tl; R+), in which a subset R of the nodes (called ...