GDTN: Genome-Based Delay Tolerant Network Formation in Heterogeneous 5G Using Inter-UA Collaboration.
作者: Ilsun You , Vishal Sharma , Mohammed Atiquzzaman , Kim-Kwang Raymond Choo
DOI: 10.1371/JOURNAL.PONE.0167913
关键词:
摘要: With a more Internet-savvy and sophisticated user base, there are demands for interactive applications services. However, it is challenge existing radio access networks (e.g. 3G 4G) to cope with the increasingly demanding requirements such as higher data rates wider coverage area. One potential solution inter-collaborative deployment of multiple devices in 5G setting designed meet exacting demands, facilitate high rate underlying networks. These heterogeneous can readily resolve challenges. Networks established using hybridization have diverse military civilian applications. inherent limitations irregular breakdown, node failures, halts during speed transmissions. In recent years, been attempts integrate ad hoc provide robust delay-tolerant transmissions form packet switched continuous connectivity still required these networks, order efficiently regulate flow allow formation network. Therefore, this paper, we present novel network consisting nodes from different maneuvered by Unmanned Aircraft (UA). The proposed model utilizes features biological aspect genomes forms delay tolerant models. This allows us connectivity. We then demonstrate that has an efficient delivery, lower overheads lesser delays convergence comparison approaches, based on evaluations both real-time testbed simulation environment.
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