[[abstract]]In this paper, we propose efficient parallel algorithms on the EREW PRAM for optimally locating in a tree network a path-shaped facility and a tree-shaped facility of a specified length. Edges in the tree network have arbitrary positive lengths. Two optimization criteria are considered: minimum eccentricity and minimum distancesum. Let n be the number of vertices in the tree network. Our algorithm for finding a minimum eccentricity location of a path-shaped facility takes O(log n) time using O(n) work. Our algorithm for finding a minimum distancesum location of a path-shaped facility takes O(log n) time using O(n2) work. Both of our algorithms for finding the minimum eccentricity location and a minimum distancesum location of a ...
The minimum cut and minimum length linear arrangement problems usually occur in solving wiring probl...
We consider the problem of preprocessing an $n$-vertex digraph with real edge weights so that subseq...
A vertex y is said to be a furthest neighbor of a vertex x in a tree if the weight of the path from ...
[[abstract]]We propose efficient parallel algorithms on the EREW PRAM for optimally locating in a we...
[[abstract]]In this paper, an efficient parallel algorithm is proposed for finding a k-tree core of ...
In this paper, we study the problem of locating path-shaped facilities on a tree network with non n...
We present optimal parallel solutions to reporting paths between pairs of nodes in an n-node tree. O...
Given an edge-weighted tree T, a trunk is a path P in T which minimizes the sum of the distances of ...
AbstractIn this paper, we study the problem of locating path-shaped facilities on a tree network wit...
AbstractThis paper deals with facility location problems with pos/neg weights in trees. We consider ...
The study of “optimally” locating on a network a single facility of a given total length in the form...
Facility Location Problems have a great significance for allocating resources efficiently in a netwo...
AbstractWe consider the problem of preprocessing an n-vertex digraph with real edge weights so that ...
The location of path-shaped facilities on trees has been receiving a growing attention in the specia...
We consider the problem of preprocessing an n-vertex digraph with real edge weights so that subseque...
The minimum cut and minimum length linear arrangement problems usually occur in solving wiring probl...
We consider the problem of preprocessing an $n$-vertex digraph with real edge weights so that subseq...
A vertex y is said to be a furthest neighbor of a vertex x in a tree if the weight of the path from ...
[[abstract]]We propose efficient parallel algorithms on the EREW PRAM for optimally locating in a we...
[[abstract]]In this paper, an efficient parallel algorithm is proposed for finding a k-tree core of ...
In this paper, we study the problem of locating path-shaped facilities on a tree network with non n...
We present optimal parallel solutions to reporting paths between pairs of nodes in an n-node tree. O...
Given an edge-weighted tree T, a trunk is a path P in T which minimizes the sum of the distances of ...
AbstractIn this paper, we study the problem of locating path-shaped facilities on a tree network wit...
AbstractThis paper deals with facility location problems with pos/neg weights in trees. We consider ...
The study of “optimally” locating on a network a single facility of a given total length in the form...
Facility Location Problems have a great significance for allocating resources efficiently in a netwo...
AbstractWe consider the problem of preprocessing an n-vertex digraph with real edge weights so that ...
The location of path-shaped facilities on trees has been receiving a growing attention in the specia...
We consider the problem of preprocessing an n-vertex digraph with real edge weights so that subseque...
The minimum cut and minimum length linear arrangement problems usually occur in solving wiring probl...
We consider the problem of preprocessing an $n$-vertex digraph with real edge weights so that subseq...
A vertex y is said to be a furthest neighbor of a vertex x in a tree if the weight of the path from ...