Titlebook: Internet of Unmanned Things (IoUT) and Mission-based Networking; Chaker Abdelaziz Kerrache,Carlos Calafate,Mohamed Book 2023 The Editor(s

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UAV Main Applications: From Military to Agriculture Fields,y stage in terms of mass adoption, usage, and regulations, they have already broken through industry rigid barriers, which otherwise seemed impenetrable by similar technological innovations. Most recently, drone technology uses have spread from commercial, industrial up to military applications and

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Mobility, Traffic Models, and Network Management for Internet of Unmanned Things by Using Artificiag travel demand, necessitating the development of a multimodal mobility management system. Private sector technology-driven innovation in shared mobility services, vehicles, and networks is happening at a quick, accelerating, and opportunity-rich pace. City streets, however, are a limited and scarce

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A Blockchain Trusted Mechanism (BTM) for Internet of Unmanned Things (IoUT) Using Comprehensive andf Internet of Unmanned Things (IoUT). By gathering various smart devices (SDs) into clusters (Cls), the SDs within one cluster may share the information and deter malicious devices from network access by modifying and accessing the controls. The security of SDs can be provided through various securi

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Mobile Edge Computing in Internet of Unmanned Things (IoUT),tions that fall under the umbrella of the Internet of Unmanned Things (IoUT). The value that MEC systems bring to 5G and beyond networks is unprecedented, and as such, it is extensively studied and recognized by both industry and academia, due to the opportunities to dynamically create means for dep

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Mobile Edge Computing Enabled Internet of Unmanned Things,rial Vehicles (UAV). MEC paradigm contributes significantly to the reduction of communication latency and by allowing the presence of cloud-like services such as computation and storage at the edge of the network. UAVs can be viewed as flying Internet of Things (IoT) devices characterized by high mo

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Inter-UAV Communication Over Future Internet Architectures,o ensure reliable and long-distance connections. Unfortunately, the TCP/IP model partially fails to fulfill these prerequisites, as it was not designed for such types of networks. To overcome these limitations, the research community has explored alternatives to support these requirements. Several F

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Experimental Validation of Networked Aerial IoUT Solutions: Testbeds and Measurements,heterogeneous network traffic types, and the need to coordinate with aerial vehicles, ground vehicles, and humans. Typically, several wireless channels co-exist to serve aerial control communication that requires low-latency and time guarantees and primarily video transmission that calls for high da