A dynamic flow network consists of a directed graph, where nodes called sources represent locations of evacuees, and nodes called sinks represent locations of evacuation facilities. Each source and each sink are given supply representing the number of evacuees and demand representing the maximum number of acceptable evacuees, respectively. Each edge is given capacity and transit time. Here, the capacity of an edge bounds the rate at which evacuees can enter the edge per unit time, and the transit time represents the time which evacuees take to travel across the edge. The evacuation completion time is the minimum time at which each evacuees can arrive at one of the evacuation facilities. Given a dynamic flow network without sinks, once sinks...
Abstract. In this paper, we consider the quickest flow problem in a net-work which consists of a dir...
Abstract In this paper, we consider a sink location in a dynamic network which consists of a graph w...
Earliest arrival flows capture the essence of evacuation planning. Given a network with capacities a...
AbstractIn this paper, we consider a sink location in a dynamic network which consists of a graph wi...
We model evacuation in emergency situations by dynamic flow in a network. We want to minimize the ag...
In this thesis, we study 1-sink location and k-sink evacuation problem on dynamic cycle networks. We...
Sixth International Conference on Graphs and Optimization 2007In this paper, we consider the evacuat...
AbstractIn this paper, we consider the evacuation problem in a network which consists of a directed ...
The sink location problem is a combination of network flow and location problems: From a given set o...
In this thesis, we consider the development of algorithms suitable for designing evacuation procedu...
In this paper, we consider a sink location in a dynamic network which consists of a graph with capac...
This paper considers facility location problems within dynamic flow networks, shifting the focus fro...
Abstract: Evacuation problems can be modeled as flow problems in dynamic networks. A dynamic network...
We address both 1 and k sink location problems on dynamic cycle networks. Our 1-sink algorithms run...
The thesis discusses discrete-time dynamic flows over a finite time horizon T. These flows take time...
Abstract. In this paper, we consider the quickest flow problem in a net-work which consists of a dir...
Abstract In this paper, we consider a sink location in a dynamic network which consists of a graph w...
Earliest arrival flows capture the essence of evacuation planning. Given a network with capacities a...
AbstractIn this paper, we consider a sink location in a dynamic network which consists of a graph wi...
We model evacuation in emergency situations by dynamic flow in a network. We want to minimize the ag...
In this thesis, we study 1-sink location and k-sink evacuation problem on dynamic cycle networks. We...
Sixth International Conference on Graphs and Optimization 2007In this paper, we consider the evacuat...
AbstractIn this paper, we consider the evacuation problem in a network which consists of a directed ...
The sink location problem is a combination of network flow and location problems: From a given set o...
In this thesis, we consider the development of algorithms suitable for designing evacuation procedu...
In this paper, we consider a sink location in a dynamic network which consists of a graph with capac...
This paper considers facility location problems within dynamic flow networks, shifting the focus fro...
Abstract: Evacuation problems can be modeled as flow problems in dynamic networks. A dynamic network...
We address both 1 and k sink location problems on dynamic cycle networks. Our 1-sink algorithms run...
The thesis discusses discrete-time dynamic flows over a finite time horizon T. These flows take time...
Abstract. In this paper, we consider the quickest flow problem in a net-work which consists of a dir...
Abstract In this paper, we consider a sink location in a dynamic network which consists of a graph w...
Earliest arrival flows capture the essence of evacuation planning. Given a network with capacities a...