AbstractIn this paper, we study the problem of locating a median path of limited length on a tree under the condition that some existing facilities are already located. The existing facilities may be located at any subset of vertices. Upper and lower bounds are proposed for both the discrete and continuous models. In the discrete model, a median path is not allowed to contain partial edges. In the continuous model, a median path may contain partial edges. The proposed upper bounds for these two models are O(nlogn) and O(nlognα(n)), respectively. They improve the previous known bounds from O(nlog2n) and O(n2), respectively. The proposed lower bounds are both Ω(nlogn)
In this article we consider the problem of locating pathshaped facilities on a tree network, minimiz...
This paper deals with the facility location problems with balancing on allocation clients to servers...
Most of the network location problems studied have been point location studies. The nature of the fa...
AbstractIn this paper, we study the problem of locating a median path of limited length on a tree un...
[[abstract]]©2008 Elsevier-In this paper, we study the problem of locating a median path of limited ...
[[abstract]]In this paper, we study the problem of locating a median path of limited length on a tre...
The location of path-shaped facilities on trees has been receiving a growing attention in the specia...
AbstractIn this paper, we study the problem of locating path-shaped facilities on a tree network wit...
In this paper we consider the location of a path shaped facility on a grid graph. In the literature ...
In this paper, we study the problem of locating path-shaped facilities on a tree network with non n...
AbstractThis paper deals with facility location problems with pos/neg weights in trees. We consider ...
AbstractThis paper describes an O(nlogn) algorithm for finding the optimal location of a tree shaped...
Facility Location Problems have a great significance for allocating resources efficiently in a netwo...
viii, 82 p. : ill. ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577P LMS 2009 TangOne of the most im...
Bibliography: pages 126-130.We survey the p-median problem and the p-centre problem. Then we investi...
In this article we consider the problem of locating pathshaped facilities on a tree network, minimiz...
This paper deals with the facility location problems with balancing on allocation clients to servers...
Most of the network location problems studied have been point location studies. The nature of the fa...
AbstractIn this paper, we study the problem of locating a median path of limited length on a tree un...
[[abstract]]©2008 Elsevier-In this paper, we study the problem of locating a median path of limited ...
[[abstract]]In this paper, we study the problem of locating a median path of limited length on a tre...
The location of path-shaped facilities on trees has been receiving a growing attention in the specia...
AbstractIn this paper, we study the problem of locating path-shaped facilities on a tree network wit...
In this paper we consider the location of a path shaped facility on a grid graph. In the literature ...
In this paper, we study the problem of locating path-shaped facilities on a tree network with non n...
AbstractThis paper deals with facility location problems with pos/neg weights in trees. We consider ...
AbstractThis paper describes an O(nlogn) algorithm for finding the optimal location of a tree shaped...
Facility Location Problems have a great significance for allocating resources efficiently in a netwo...
viii, 82 p. : ill. ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577P LMS 2009 TangOne of the most im...
Bibliography: pages 126-130.We survey the p-median problem and the p-centre problem. Then we investi...
In this article we consider the problem of locating pathshaped facilities on a tree network, minimiz...
This paper deals with the facility location problems with balancing on allocation clients to servers...
Most of the network location problems studied have been point location studies. The nature of the fa...