This paper describes the conceptual design of a micro coaxial unmanned aerial vehicle (MCR UAV v3.0) based on its flight dynamics and a simple aerodynamic analysis using computational fluid dynamics (CFD). In addition, a simple linear control is proposed with the pole assignment technique. The methodology proposed in this paper involves a standardized path for designing the novel micro coaxial UAV. This begins by selecting the avionics to create a primary dimensional design for a later transient and stationary CFD analysis. In effect, the mathematical model is obtained using the Newton–Euler formulation and is linearized to obtain the dynamical requirements of the vehicle. The requirements allow us to design the control scheme with a linear...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Bio-inspired flying micro drones, formally known as Flapping Wing Micro Aerial Vehicles (FWMAV) are ...
Rotor-powered drones continue to grow in popularity in private and government sectors. The use of th...
Micro Coaxial Helicopter with compact size and vertical takeoff ability offers a good Micro Aerial V...
Micro Coaxial Helicopter with compact size and vertical takeoff ability offers a good Micro Aerial V...
Micro Unmanned Helicopter with ability of takeoff, landing and hovering offeres excellent support to...
Motivated by the need to relate various design parameters of Coandă Micro Air Vehicle (MAV) for its ...
Micro aerial vehicles have been the subject of continued interest and development over the last seve...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
The growing interest of rotary wing UAVs, for military and civilian applications, has encouraged des...
International audienceThis paper focuses on the regulation and trajectory tracking for a Micro Coaxi...
The objective of this project was defined as the design and implementation of a drone quadcoper usin...
This paper presents a guideline to systematically design and construct a micro quadrotor unmanned ae...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Bio-inspired flying micro drones, formally known as Flapping Wing Micro Aerial Vehicles (FWMAV) are ...
Rotor-powered drones continue to grow in popularity in private and government sectors. The use of th...
Micro Coaxial Helicopter with compact size and vertical takeoff ability offers a good Micro Aerial V...
Micro Coaxial Helicopter with compact size and vertical takeoff ability offers a good Micro Aerial V...
Micro Unmanned Helicopter with ability of takeoff, landing and hovering offeres excellent support to...
Motivated by the need to relate various design parameters of Coandă Micro Air Vehicle (MAV) for its ...
Micro aerial vehicles have been the subject of continued interest and development over the last seve...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
The growing interest of rotary wing UAVs, for military and civilian applications, has encouraged des...
International audienceThis paper focuses on the regulation and trajectory tracking for a Micro Coaxi...
The objective of this project was defined as the design and implementation of a drone quadcoper usin...
This paper presents a guideline to systematically design and construct a micro quadrotor unmanned ae...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Bio-inspired flying micro drones, formally known as Flapping Wing Micro Aerial Vehicles (FWMAV) are ...
Rotor-powered drones continue to grow in popularity in private and government sectors. The use of th...