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Yanlong Zhou, Mou Chen, Changsheng Jiang (2015)
Robust tracking control of uncertain MIMO nonlinear systems with application to UAVsIEEE/CAA Journal of Automatica Sinica, 2
M. Nieuwstadt, R. Murray (1998)
Rapid Hover-to-Forward-Flight Transitions for a Thrust-Vectored AircraftJournal of Guidance Control and Dynamics, 21
Yeun-Soo Jung, D. Shim (2012)
Development and Application of Controller for Transition Flight of Tail-Sitter UAVJournal of Intelligent & Robotic Systems, 65
Markus Bajones, D. Fischinger, A. Weiss, Daniel Wolf, M. Vincze, P. Puente, T. Körtner, Markus Weninger, K. Papoutsakis, Damien Michel, Ammar Qammaz, Paschalis Panteleris, Michalis Foukarakis, Ilia Adami, Danae Ioannidi, A. Leonidis, M. Antona, Antonis Argyros, P. Mayer, P. Panek, Håkan Eftring, S. Frennert (2018)
Hobbit: Providing Fall Detection and Prevention for the Elderly in the Real WorldJ. Robotics, 2018
Amit Bhattacharyya (2016)
Differential Voltage Current Conveyor Based One-Shot Pulse Generator Circuit ImplementationIndian journal of science and technology, 9
Adnan Saeed, A. Younes, S. Islam, J. Dias, L. Seneviratne, Guowei Cai (2015)
A review on the platform design, dynamic modeling and control of hybrid UAVs2015 International Conference on Unmanned Aircraft Systems (ICUAS)
Navya Hegde, V. George, C. Nayak, Kamlesh Kumar (2019)
Design, dynamic modelling and control of tilt-rotor UAVs: a reviewInternational Journal of Intelligent Unmanned Systems
B. Trilaksono, Ryan Triadhitama, W. Adiprawita, Artiko Wibowo, A. Sreenatha (2011)
Hardware‐in‐the‐loop simulation for visual target tracking of octorotor UAVAircraft Engineering and Aerospace Technology, 83
K. Kleinhesselink (2007)
Stability and control modeling of Tiltrotor aircraft
J. Tavoosi (2020)
Hybrid intelligent adaptive controller for tiltrotor UAV
Navya Hegde, V. George, C. Nayak, Kamlesh Kumar (2020)
Transition flight modeling and robust control of a VTOL unmanned quad tilt-rotor aerial vehicleIndonesian Journal of Electrical Engineering and Computer Science
H. Erdogan, A. Kural, C. Özsoy (2017)
Model predictive control of an unmanned aerial vehicleAircraft Engineering and Aerospace Technology, 89
A. Maqsood, T. Go (2012)
Multiple time scale analysis of aircraft longitudinal dynamics with aerodynamic vectoringNonlinear Dynamics, 69
(2004)
Towards gain-scheduled H-infinity control design for a tilt-wing aircraft
A. Maqsood, T. Go (2012)
Optimization of transition maneuvers through aerodynamic vectoringAerospace Science and Technology, 23
U. Ozdemir, Yucel Aktas, A. Vuruskan, Yasin Dereli, A. Tarhan, Karaca Demirbag, A. Erdem, Ganime Kalaycioglu, I. Özkol, G. Inalhan (2013)
Design of a Commercial Hybrid VTOL UAV SystemJournal of Intelligent & Robotic Systems, 74
Hang Zhang, Bifeng Song, Haifeng Wang, J. Xuan (2019)
A method for evaluating the wind disturbance rejection capability of a hybrid UAV in the quadrotor modeInternational Journal of Micro Air Vehicles, 11
G. Ducard, Minh-Duc Hua (2014)
Modeling of an unmanned hybrid aerial vehicle2014 IEEE Conference on Control Applications (CCA)
Li Yu, Daibing Zhang, Jiyang Zhang (2017)
Transition flight modeling and control of a novel tilt tri-rotor UAV2017 IEEE International Conference on Information and Automation (ICIA)
Chao Chen, Jiyang Zhang, Daibing Zhang, Lincheng Shen (2017)
Control and flight test of a tilt-rotor unmanned aerial vehicleInternational Journal of Advanced Robotic Systems, 14
Anil Onen, Levent Cevher, M. Senipek, T. Mutlu, O. Gungor, Ismail Uzunlar, D. Kurtuluş, O. Tekinalp (2015)
Modeling and controller design of a VTOL UAV2015 International Conference on Unmanned Aircraft Systems (ICUAS)
D. Kubo, Shinji Suzuki (2008)
Tail-Sitter Vertical Takeoff and Landing Unmanned Aerial Vehicle: Transitional Flight AnalysisJournal of Aircraft, 45
M. Hassanalian, R. Salazar, A. Abdelkefi (2019)
Conceptual design and optimization of a tilt-rotor micro air vehicleChinese Journal of Aeronautics
A. Vuruskan, B. Yuksek, U. Ozdemir, Adil Yukselen, G. Inalhan (2014)
Dynamic modeling of a fixed-wing VTOL UAV2014 International Conference on Unmanned Aircraft Systems (ICUAS)
A. Maqsood, T. Go (2010)
Optimization of Hover-to-Cruise Transition Maneuver Using Variable-Incidence WingJournal of Aircraft, 47
T. Nguyen, M. Lazar, H. Butler (2016)
A computationally efficient commutation algorithm for parasitic forces and Torques compensation in ironless linear motorsIFAC-PapersOnLine, 49
Xinhua Wang, L. Cai (2015)
Mathematical modeling and control of a tilt-rotor aircraftArXiv, abs/1505.06784
F. Çakıcı, M. Leblebicioğlu (2016)
Control System Design of a Vertical Take-off and Landing Fixed-Wing UAVIFAC-PapersOnLine, 49
G. Flores, J. Escareño, R. Lozano, S. Salazar (2011)
Quad-Tilting Rotor Convertible MAV: Modeling and Real-Time Hover Flight ControlJournal of Intelligent & Robotic Systems, 65
Omar Aedo, Karina Barbosa, Arturo Álvarez (2015)
Mixed controller design for an UAV flight control system2015 CHILEAN Conference on Electrical, Electronics Engineering, Information and Communication Technologies (CHILECON)
R. Hirpara, S. Sharma (2016)
A hybrid non-linear filter for an unmanned aerial vehicle (UAV) dynamics2016 20th International Conference on System Theory, Control and Computing (ICSTCC)
R. Olanrewaju, Rafhanah Rosli, Balogun Adebayo (2016)
Autonomous Control of Tilt Tri-Rotor Unmanned Aerial VehicleIndian journal of science and technology, 9
B. Yuksek, A. Vuruskan, U. Ozdemir, M. Yukselen, G. Inalhan (2016)
Transition Flight Modeling of a Fixed-Wing VTOL UAVJournal of Intelligent & Robotic Systems, 84
A. Banazadeh, N. Taymourtash (2016)
Optimal Control of an Aerial Tail Sitter in Transition Flight PhasesJournal of Aircraft, 53
B. Theys, G. Vos, J. Schutter (2016)
A control approach for transitioning VTOL UAVs with continuously varying transition angle and controlled by differential thrust2016 International Conference on Unmanned Aircraft Systems (ICUAS)
M. Chodnicki, M. Mazur, M. Nowakowski, G. Kowaleczko (2019)
The mathematical model of UAV vertical take-off and landingAircraft Engineering and Aerospace Technology
R. Naldi, L. Marconi (2009)
Optimal transition maneuvers for a class of V/STOL aircraftAutom., 47
Stefan Winkvist, E. Rushforth, K. Young (2013)
Towards an autonomous indoor aerial inspection vehicleInd. Robot, 40
Andi Dharmawan, Ahmad Ashari, A. Putra (2017)
Mathematical Modelling of Translation and Rotation Movement in Quad TiltrotorInternational Journal on Advanced Science, Engineering and Information Technology, 7
J. Dickeson, D. Miles, Oguzhan Çifdalöz, V. Wells, Armando Rodriguez (2007)
Robust LPV H∞ gain-scheduled hover-to-cruise conversion for a tilt-wing rotorcraft in the presence of CG variations2007 46th IEEE Conference on Decision and Control
(2019)
Robust H-infinity control applied on a fixed wing unmanned aerial vehicle
Z. Kong, Q. Lu (2018)
Mathematical Modeling and Modal Switching Control of a Novel Tiltrotor UAVJ. Robotics, 2018
This paper aims to provide a mathematical modeling and design of H-infinity controller for an autonomous vertical take-off and landing (VTOL) Quad Tiltrotor hybrid unmanned aerial vehicles (UAVs). The variation in the aerodynamics and model dynamics of these aerial vehicles due to its tilting rotors are the key issues and challenges, which attracts the attention of many researchers. They carry parametric uncertainties (such as non-linear friction force, backlash, etc.), which drives the designed controller based on the nominal model to instability or performance degradation. The controller needs to take these factors into consideration and still give good stability and performance. Hence, a robust H-infinity controller is proposed that can handle these uncertainties.Design/methodology/approachA unique VTOL Quad Tiltrotor hybrid UAV, which operates in three flight modes, is mathematically modeled using Newton–Euler equations of motion. The contribution of the model is its ability to combine high-speed level flight, VTOL and transition between these two phases. The transition involves the tilting of the proprotors from 90° to 0° and vice-versa in 15° intervals. A robust H-infinity control strategy is proposed, evaluated and analyzed through simulation to control the flight dynamics for different modes of operation.FindingsThe main contribution of this research is the mathematical modeling of three flight modes (vertical takeoff–forward, transition–cruise-back, transition-vertical landing) of operation by controlling the revolutions per minute and tilt angles, which are independent of each other. An autonomous flight control system using a robust H-infinity controller to stabilize the mode of transition is designed for the Quad Tiltrotor UAV in the presence of uncertainties, noise and disturbances using MATLAB/SIMULINK. This paper focused on improving the disturbance rejection properties of the proposed UAV by designing a robust H-infinity controller for position and orientation trajectory regulation in the presence of uncertainty. The simulation results show that the Tiltrotor achieves transition successfully with disturbances, noise and uncertainties being present.Originality/valueA novel VTOL Quad Tiltrotor UAV mathematical model is developed with a special tilting rotor mechanism, which combines both aircraft and helicopter flight modes with the transition taking place in between phases using robust H-infinity controller for attitude, altitude and trajectory regulation in the presence of uncertainty.
International Journal of Intelligent Unmanned Systems – Emerald Publishing
Published: Jun 15, 2021
Keywords: Attitude and altitude control; Quad VTOL Tiltrotor UAV; Robust H-infinity controller; Transition flight modeling; Unmanned aerial vehicle
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