![]() ![]() He himself involves in research and expertise in Fog computing and Blockchain technologies. He is currently allied with company-specific training of Infosys Campus Connect, Oracle WDP, and Palo Alto Networks. He is a Global Chapter Lead of machine learning for cyber security (MLCS). Lakshmana Kumar Ramasamy is currently leading the Technical Team, Hindusthan College of Engineering and Technology, Coimbatore, India. Navigate Left Previous article in issue.Finally, we recommend some research directions for future investigations. We classify the solutions, compare and analyze their advantages and disadvantages. Next, we discuss current related solutions for applying the blockchain to resolve the current security issue in aerial communication networks in detail. First, we study aerial communication networks and their current security issues, blockchain and its advantages, the feasibility and opportunity of applying the blockchain to resolve the current security issue in aerial communication networks. ![]() This paper presents a survey on the integration of Blockchain with Aerial Communications (BAC). It can use for guaranteeing the reliability of the data stored and for enhancing the transparency and security of aerial communication networks. Blockchain is a decentralized and disseminated ledger, guards the distributed information using methods of cryptography, for example, public-key encryption and hash functions. The blockchain technology is a potential solution candidate to tackle this issue. Therefore, security is a crucial issue in aerial communication networks. Aerial communication devices are vulnerable to being physically hijacked, destroyed, or lost. Drones, low and high-altitude platforms, airships, aircraft, and unmanned aerial vehicles (UAVs) are regarded as applicants for organizing aerial communications supplementing the infrastructure of global interaction. Aerial communications have been examined through the assessment and the design of the stratospheric platform capable of providing numerous types of wireless services. To deal with this problem, offering “connectivity from the sky” is a novel and creative development. After a disaster, communication failures are one of the essential causes of sufferers. Read the complete text of the FCC’s white paper on deployable aerial communications architecture.Most natural disasters are consequences of hurricanes, floods, volcano eruptions, and earthquakes, and can severely disturb traditional communications networks and interrupt infrastructure of physical interconnection. The white paper also outlines a plan for subsequent action by the Commission to further explore DACA capabilities and the potential to deploy a DACA-based communications system in the event of an emergency. The white paper proposes that such a DACA-based solution could provide vital communications services for first responders and disaster recovery professionals under circumstances in which landline, cellular, broadcast or cable capabilities are unavailable. These are capabilities already available for military operations. Such a system would rely on state-of-the-art communications systems on aerial platforms, such as manned aircraft, unmanned aerial vehicles and balloons. Titled “The Role of Deployable Aerial Communications Architecture in Emergency Communications and Recommended Next Steps”, the white paper offers a detailed analysis of how a deployable aerial communications architecture (DACA) might help to temporarily restore communications services in the immediate aftermath of a catastrophic event. Federal Communications Commission (FCC) has published a white paper that outlines its vision for a “deployable aerial communications” system. Seeking to explore communications alternatives in the wake of a natural or man-made disaster that damages or destroys terrestrial-based communications networks, the U.S. ![]()
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