The object of research is the process of controlling the trajectory of unmanned aerial vehicles (UAVs) in autonomous flight mode based on neural network algorithms. The study is based on the application of numerical-analytical approach to the selection of modern technical solutions for the construction of standard models of platformless inertial navigation systems (BINS) for micro and small UAVs, followed by support for assumptions. The results of simulation in the Matlab environment allowed to simulate the operation of the UAV control system based on MEMS technology (using microelectromechanical systems) and Arduino microcomputers. It was also possible to experimentally determine the nature of the influence of the structure of the selected...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Flight simulators have been part of aviation history since its beginning. With the development of mo...
“Teaching by Showing” control of a small helicopter’s aggressive maneuvering often...
The object of research is the process of controlling the trajectory of unmanned aerial vehicles (UAV...
This thesis presents the development of small, inexpensive unmanned aerial vehicles (UAVs) to achie...
This paper addresses the issue of developing a computerized system for processing information in the...
This paper addresses the issue of developing a computerized system for processing information in the...
Abstract: This paper presents a theoretical mechanical model of an unmanned aerial vehicle...
This paper presents an adaptive neural network approach to the trajectory tracking control of micro ...
In this work, a learning model-free control method is proposed for accurate trajectory tracking and ...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This research work provides the development of an Adaptive Flight Control System (AFCS) for autonom...
© 2014 Elsevier B.V. A vision-based anticipatory controller for the autonomous indoor navigation of ...
Recent publications on automatic flight controls are concentrated on neural network based adaptive c...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Flight simulators have been part of aviation history since its beginning. With the development of mo...
“Teaching by Showing” control of a small helicopter’s aggressive maneuvering often...
The object of research is the process of controlling the trajectory of unmanned aerial vehicles (UAV...
This thesis presents the development of small, inexpensive unmanned aerial vehicles (UAVs) to achie...
This paper addresses the issue of developing a computerized system for processing information in the...
This paper addresses the issue of developing a computerized system for processing information in the...
Abstract: This paper presents a theoretical mechanical model of an unmanned aerial vehicle...
This paper presents an adaptive neural network approach to the trajectory tracking control of micro ...
In this work, a learning model-free control method is proposed for accurate trajectory tracking and ...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This paper deals with the development of a flight control scheme based on the Nonlinear Dynamic Inve...
This research work provides the development of an Adaptive Flight Control System (AFCS) for autonom...
© 2014 Elsevier B.V. A vision-based anticipatory controller for the autonomous indoor navigation of ...
Recent publications on automatic flight controls are concentrated on neural network based adaptive c...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Flight simulators have been part of aviation history since its beginning. With the development of mo...
“Teaching by Showing” control of a small helicopter’s aggressive maneuvering often...