Opportunistic Networks (OppNets) can be used as an alternative way to communicate or to interact with each other when a fixed communication infrastructure is down during an incident like an earthquake or tsunami. In this paper, we investigate the factors effecting the performa nce of an OppNets routing protocol which is Binary Spray and Wait protocol in a condition of emergency situation. We have conducted four experiments; 1) 20 pedestrians, 2) 20 cars, 3) 100 pedestrians, and 4) 100 cars. We evaluated this protocol using Opportunistic Networking Environment (ONE) simulator and analyze the performance in term of delivery probability, number of message dropped, latency average, and h...
A delay tolerant network (DTN) is a mobile wireless network that is characterized by frequent partit...
Computer networks, and specifically AdHoc and IoT networks, are constantly evolving to become comple...
Epidemic routing has been proposed to reduce the data transmission delay in opportunistic networks, ...
Delay Tolerant Networking (DTN) can be used as a way of communication when existing infrastructure i...
We investigate supporting emergency response operations with opportunistic resource utilization netw...
Disasters occur anywhere around the world at unexpected times and they cannot usually be predicted o...
Opportunistic Network (OppNet) is a wireless network that doesn’t need any infrastructure in the for...
Small mobile devices with networking capabilities are becoming more and more readily available and u...
Ad hoc networks have been proved to be suitable for disaster scenarios since any infrastructure need...
Opportunistic Network is form of Delay Tolerant Network (DTN) and regarded as extension to Mobile Ad...
Abstract-Routing in Opportunistic Networks, as a relatively young discipline, still lacks coherent, ...
Delay tolerant Network is of great interest during these days. Like adhoc network, there is no route...
In opportunistic networks, due to node mobility and sporadic connectivity, disconnection and network...
The goal of Opportunistic Networks (OppNets) is to enable message transmission in an infrastructure ...
Delay Tolerant Network (DTN) is a type of challenge network, which relies on intermittent nodes to c...
A delay tolerant network (DTN) is a mobile wireless network that is characterized by frequent partit...
Computer networks, and specifically AdHoc and IoT networks, are constantly evolving to become comple...
Epidemic routing has been proposed to reduce the data transmission delay in opportunistic networks, ...
Delay Tolerant Networking (DTN) can be used as a way of communication when existing infrastructure i...
We investigate supporting emergency response operations with opportunistic resource utilization netw...
Disasters occur anywhere around the world at unexpected times and they cannot usually be predicted o...
Opportunistic Network (OppNet) is a wireless network that doesn’t need any infrastructure in the for...
Small mobile devices with networking capabilities are becoming more and more readily available and u...
Ad hoc networks have been proved to be suitable for disaster scenarios since any infrastructure need...
Opportunistic Network is form of Delay Tolerant Network (DTN) and regarded as extension to Mobile Ad...
Abstract-Routing in Opportunistic Networks, as a relatively young discipline, still lacks coherent, ...
Delay tolerant Network is of great interest during these days. Like adhoc network, there is no route...
In opportunistic networks, due to node mobility and sporadic connectivity, disconnection and network...
The goal of Opportunistic Networks (OppNets) is to enable message transmission in an infrastructure ...
Delay Tolerant Network (DTN) is a type of challenge network, which relies on intermittent nodes to c...
A delay tolerant network (DTN) is a mobile wireless network that is characterized by frequent partit...
Computer networks, and specifically AdHoc and IoT networks, are constantly evolving to become comple...
Epidemic routing has been proposed to reduce the data transmission delay in opportunistic networks, ...