Design and Flight Test Study of a VTOL UAV

Öznalbant, Zafer; Kavsaoğlu, Mehmet Şerif

doi:10.2514/6.2015-1903

Cited by 7 publications

(3 citation statements)

References 12 publications

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“…In the event that 10, 3.8 prop our quad will move noticeable all around at 5.7 meters/second, while by 10, 6 prop Ascension rate will be increased to 9.1 meters/second. The large diameter propeller can create more push/thrust (Table III).…”

Section: ) Propellersmentioning

confidence: 93%

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Implementation and Testing of Autonomous Quad-Rotor Aerial Vehicle by Using Ardu-Pilot

Masood¹,

Wang²,

Ali³

et al. 2016

IJIEE

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Abstract-In this article self-ruling autonomous quad-rotor, (AQR) Unmanned Aerial Vehicle (UAV)" system is developed. It has four rotors or engines and can fly without a pilot. The controlling and the velocity calculations of the UAV is control of diverse systems. The self -ruling UAV is accurately made to keep up harmony between velocity, weight, sound and force. It abides in four adjustable disperse arms with engines. Changes in engine velocities are utilized to adjust the position in the desired manner. All the association has been carried out in the middle of the UAV. Module is set inside the Ardupilot which is utilized to send signals to the engine with respect to the estimation of the sensors like GPS (U-Box GPS v2. 0), Gyro, Accelerometer and Barometer maintain a particular height. The venture is the implicit request to make a suitable and programmed flight starting in one direction, then in the next direction with defined height and pace. It must be remembered that the procurement of computations and investigation of the inertial measurement system must be performed precisely. Basically, this UAV full fill the needs of any clever gear, which is utilized to screen the ranges which are not in human reach.

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Section: ) Propellersmentioning

confidence: 93%

“…In order to merge these benefits on a single air vehicle, vertical takeoff, landing VTOL aircraft with a fixed wing configuration has been taken into consideration for over five decades by academicians and the industry itself [5], [6].…”

Section: Introductionmentioning

confidence: 99%

Implementation and Testing of Autonomous Quad-Rotor Aerial Vehicle by Using Ardu-Pilot

Masood¹,

Wang²,

Ali³

et al. 2016

IJIEE

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“…The advantage of the multirotor UAV lies in its vertical take-off and landing capability, while the fixedwing UAV performs higher flight speed and longer duration compared with multirotor UAV. In order to combine the advantages of both, several new types of UAVs, such as tilt-wing [4][5][6], tilt-rotor [7][8][9][10], Quad-Plane [11][12][13][14], tailsitter [15,16], and other types [17] have been the focus of attention by researchers. Among them, the Quad-Plane has achieved a good balance among flight performance, VTOL capability, and controllability, with less system complexity but better stability and safety.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Simulation and Conceptual Layout Study on a Quad-Plane in VTOL Mode in Wind Disturbance Environment

Song

et al. 2022

International Journal of Aerospace Engineering

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Quadrotor fixed-wing hybrid vertical take-off and landing (VTOL) UAV, the so-called Quad-Plane, is susceptible to wind disturbance during the VTOL mode, which reduces its stability and limits its application. In order to dynamically analyze its response characteristics to wind disturbance and effectively optimize the wind disturbance rejection performance in VTOL mode, a dynamic flight simulation system based on the 6-DoF equations is established, in which the aerodynamic model of the Quad-Plane is established based on the wind tunnel test, the axial and lateral forces and moments of the rotor in wind disturbance are obtained through CFD simulation, and the Brushless DC (BLDC) motor, wind disturbance, and flight controller are modeled based on actual characteristics. The simulation system is verified and validated by comparing the simulation results with test results of a 5 kg real Quad-Plane. Using this system, the response characteristics of the Quad-Plane to the discrete and continuous wind disturbance are studied. In addition, the influences of major conceptual layout parameters that affect the wind disturbance rejection performance, such as take-off weight, weight distribution, Center of Gravity (CG) position, rotor incline angle, arm length, and arm angle, are studied. Finally, the approaches on designing a Quad-Plane with better wind disturbance rejection performance during the conceptual layout design are presented.

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Tilt Tri-Rotor UAV Attitude Control in Hover Mode

Wang

Zhao

et al. 2023

Lecture Notes in Electrical Engineering

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Design and Flight Test Study of a VTOL UAV

Cited by 7 publications

References 12 publications

Implementation and Testing of Autonomous Quad-Rotor Aerial Vehicle by Using Ardu-Pilot

Implementation and Testing of Autonomous Quad-Rotor Aerial Vehicle by Using Ardu-Pilot

Dynamic Simulation and Conceptual Layout Study on a Quad-Plane in VTOL Mode in Wind Disturbance Environment

Tilt Tri-Rotor UAV Attitude Control in Hover Mode

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