In the present society, aerospace is realizing tremendous advancements. Vehicles no longer requiring pilots are being utilized in aviation. Drones, RPVs (remotely piloted vehicles), and UAVs (unmanned aerial vehicles) among others are among the key topics in the area of aerospace engineering. Aircrafts being controlled remotely are being utilized in distinct areas. In this sense, a large number of individuals are contemplating on diverse utilizations of aerospace vehicles not piloted by individuals (Fahlstrom & Gleason, 2012) . Thus, the paper reveals diverse opinions concerning the future of Drones, UAVs, and RPVs in both military as well as commercial uses, particularly as they have been noted to have tremendous influence in the development of the aerospace and aviation sector in the U.S., which has gained notable reputation for their utilization.
The military is one of the most common areas where Drones, UAVs, and RPVs have been utilized in an active manner. However, apart from military purposes, the vehicles have received widespread recognition in projects related to research and development. In the coming 10 years, the market for Drones, UAVs, and RPVs is anticipated to triple. Analytics reveal that Drones, UAVs, and RPVs will emerge as the most developing area in aviation. In the coming 10 years, only around 70 percent of the production of the vehicles will be utilized in the military. Studies on research and development, commercial missions, as well as hobbies will emerge as the key fields of the vehicles (Aerospace Engineering, 2017) .
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Automation in the area of aerospace engineering has become significantly better than any other time in history. Planning for the route of a flight or managing it through autonomous means is becoming increasingly possible. New opportunities and steps led to the emergence of new philosophies in the area. Present Drones, UAVs, and RPVs’ technology has various specifications, which depict the diverse advancements. Because the platform of the vehicles is quite sophisticated, the vehicles have been referred to as systems. The systems comprise of two sides including ground stations and aircraft while they are mostly utilized in the civil setting. In the case of drones, they utilize radio control thereby leading them to have practical usage on an everyday basis (Stanley, 2014) . Also, concerning the area of automating aerospace engineering, the extent has not been entirely developed. It is perceived as among the key emerging topics in the area of aerospace engineering. It comprises of distinct categories, which are notably associated with unmanned aerial vehicles. Communication protocols, sensors, maneuver control, route planning, cooperative flights, and planning are among the most notable topics in aircraft automation (Stanley, 2014) . Gathering information during flight has become easier than any other time in history.
On the usage and future of Drones, UAVs, and RPVs, military utilization has gained most popularity mostly because key developments have been realized in the area. It is quite possible to utilize Drones, UAVs, and RPVs having guns in conflict areas while they can also be utilized for gathering intelligence by utilizing additional devices. Portable structure, lightweight body, as well as endurance are perceived as among the key benefits of the vehicles. Nonetheless, they are also associated with certain limitations. For instance, people do not pilot them while they can be utilized in dangerous situations while they are also not fast enough when compared to manned aircrafts. Issues related to controlling and communication also serve as other areas demanding additional studies. Linkage of data between ground control and the vehicles require being seamless or it would not be possible to realize further advancements in the Drones, UAVs, and RPVs technology (Stanley, 2014) . Therefore, succeeding in the area is dependent on technology of the engine, structure of satellite as well as various operational issues.
References
Aerospace Engineering. (2017). Limitations of UAVs in aerospace engineering. Retrieved from https://aerospaceengineering.aero/limitations-of-uavs-in-aerospace-engineering/
Fahlstrom, P., & Gleason, T. (2012). Introduction to UAV systems. New York: John Wiley & Sons.
Stanley, J. (2014). "Drones" vs "UAVs" -- What's behind a name? Retrieved from https://www.aclu.org/blog/national-security/drones-vs-uavs-whats-behind-name?redirect=blog/drones-vs-uavs-whats-behind-name
