This paper addresses the minimax regret sink location problem in dy-namic tree networks. In our model, a dynamic tree network consists of an undirected tree with positive edge lengths and uniform edge capacity, and the vertex supply which is a positive value is unknown but only the interval of supply is known. A particular realization of supply to each vertex is called a scenario. Under any scenario, the cost of a sink location x is defined as the minimum time to complete the evacuation to x for all supplies (evacuees), and the regret of x is defined as the cost of x minus the cost of the optimal sink location. Then, the problem is to find a sink location which minimizes the maximum regret for all possible scenarios. We present an O(n2 log2...
Abstract—In a facility location problem in computational geometry, if the vertex weights are uncerta...
The Minmax Regret Spanning Tree problem is studied in this paper. This is a generalization of the we...
We consider the minmax regret 1-center problem on a general network with un-certainty on demands. Un...
We model evacuation in emergency situations by dynamic flow in a network. We want to minimize the ag...
AbstractIn this paper, we consider a sink location in a dynamic network which consists of a graph wi...
Abstract. A dynamic path network is an undirected path with evacuees situated at each vertex. To eva...
In this paper, we consider a sink location in a dynamic network which consists of a graph with capac...
In this thesis, we study 1-sink location and k-sink evacuation problem on dynamic cycle networks. We...
Abstract In this paper, we consider a sink location in a dynamic network which consists of a graph w...
We address both 1 and k sink location problems on dynamic cycle networks. Our 1-sink algorithms run...
In this thesis, we consider the development of algorithms suitable for designing evacuation procedu...
In this paper, we consider the k-sink location problem in a path network with the goal of optimizing...
A dynamic flow network consists of a directed graph, where nodes called sources represent locations ...
The sink location problem is a combination of network flow and location problems: From a given set o...
[[abstract]]In this paper, we propose efficient parallel algorithms on the EREW PRAM for optimally l...
Abstract—In a facility location problem in computational geometry, if the vertex weights are uncerta...
The Minmax Regret Spanning Tree problem is studied in this paper. This is a generalization of the we...
We consider the minmax regret 1-center problem on a general network with un-certainty on demands. Un...
We model evacuation in emergency situations by dynamic flow in a network. We want to minimize the ag...
AbstractIn this paper, we consider a sink location in a dynamic network which consists of a graph wi...
Abstract. A dynamic path network is an undirected path with evacuees situated at each vertex. To eva...
In this paper, we consider a sink location in a dynamic network which consists of a graph with capac...
In this thesis, we study 1-sink location and k-sink evacuation problem on dynamic cycle networks. We...
Abstract In this paper, we consider a sink location in a dynamic network which consists of a graph w...
We address both 1 and k sink location problems on dynamic cycle networks. Our 1-sink algorithms run...
In this thesis, we consider the development of algorithms suitable for designing evacuation procedu...
In this paper, we consider the k-sink location problem in a path network with the goal of optimizing...
A dynamic flow network consists of a directed graph, where nodes called sources represent locations ...
The sink location problem is a combination of network flow and location problems: From a given set o...
[[abstract]]In this paper, we propose efficient parallel algorithms on the EREW PRAM for optimally l...
Abstract—In a facility location problem in computational geometry, if the vertex weights are uncerta...
The Minmax Regret Spanning Tree problem is studied in this paper. This is a generalization of the we...
We consider the minmax regret 1-center problem on a general network with un-certainty on demands. Un...