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Future FANET with application and enabling techniques: Anatomization and sustainability issues
Computer Science Review ( IF 12.9 ) Pub Date : 2020-12-28 , DOI: 10.1016/j.cosrev.2020.100359
Ashish Srivastava , Jay Prakash

Rapid expansion and technological advancement of Wireless communication lead by researchers in different fields of engineering have achieved various milestones. Its efficient use has proven that days are not too far when even we think of anything flying sensors, actuators of multiple types surrounded by us process it, and try to bring down or show the best possible result. One of the most talked-about innovations in drones the day it was invented. Group of Drones working in a collectively and Ad hoc manner form a Flying Ad hoc network (FANET). The Mobility of UAVs makes it more accessible, which helps in the mobile revolution that the present world is going through. The use of such a network in different applications across the globe is highly demanding. Most of the traditional study compares it with other Ad hoc networks and coupling, relating to them. However, FANET has its considerations relating to the same class of system. This paper presents a comprehensive survey relating FANET and critical points regarding it, ranging from the categorization of FANET, the architecture of FANET, types of possible communication in FANET, numerous Mobility Models, constraints in FANET, characteristics, and design of FANET, routing protocol, and routing topology. We further present open issues and challenges in FANET relating to essential parameters and research. It endeavored to store all the recommendations to encourage the researchers to function in this particular area and the same class of network. Deterministic jointly with probabilistic points of studies compiled and listed with the belief that deterministic methods should be in association with stochastic approaches for better results in FANET.



中文翻译:

未来的FANET及其应用和支持技术:解剖和可持续性问题

在不同工程领域的研究人员领导的无线通信的快速扩展和技术进步已经实现了各个里程碑。它的有效使用已证明,即使我们想到任何飞行传感器,也需要我们包围的多种类型的执行器对其进行处理,并尝试降低或显示最佳结果,但日子还不算太远。发明当天,无人机中最受关注的创新之一。以集体和临时方式工作的无人驾驶飞机组形成了一个飞行临时网络(FANET)。无人机的移动性使其更易于使用,这有助于当今世界正在经历的移动革命。在全球范围内的不同应用中使用这种网络的要求很高。大多数传统研究将其与其他Ad hoc网络和耦合进行了比较,与他们有关。但是,FANET具有与同一类系统有关的考虑因素。本文对FANET及其相关的关键点进行了全面的调查,涵盖了FANET的分类,FANET的体系结构,FANET中可能的通信类型,众多的移动性模型,FANET的约束,FANET的特性和设计,路由协议,以及路由拓扑。我们进一步提出FANET中与基本参数和研究有关的未解决问题和挑战。它努力存储所有建议,以鼓励研究人员在该特定领域和同一类网络中发挥作用。

更新日期:2020-12-28
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