Drone construction and operation is still a hot topic of study, and we'll take a look at what's new in this subject. The discussion comes to energy usage, mobility and pace, and survival and robustness, as well as underlying physical scaling rules. The controlling of such vehicles is divided into low‐level stabilization and higher‐level modeling, such as trajectory planning, and we believe that integrating sensing with control and coordination is a critical issue. Finally, we go over some vehicle topologies and the exchange they imply. We examine the impact of multi‐vehicle teams and multicopters with flown configurations. For Unmanned Air Vehicle (UAV) usage, fully automated activities are extremely desirable. The market for unmanned aerial vehicles (UAVs) is now one of the fastest expanding sectors in the aviation industry. UAVs have been in existence for a certain time, and there is growing trust in the skills and benefits given by autonomous operations. As a result, the deployment of these devices in combat duty will indeed be increased in the next years.
A Comprehensive Study on Design and Control of Unmanned Aerial Vehicles
Drone Technology ; 69-98
2023-05-22
30 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Unmanned aerial vehicles : embedded control
SLUB | 2010
|Unmanned aerial vehicles : embedded control
TIBKAT | 2010
|Unmanned aerial vehicles : embedded control
SLUB | 2010
|