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1	Evalution [i.e., evaluation] of V-22 tiltrotor handling qualities in the instrument meteorological environment Trail, Scott B. January 1900 (has links) (PDF) Thesis (M.S.) -- University of Tennessee, Knoxville, 2006. / Title from title screen (viewed Nov. 13, 2007). Thesis advisor: Robert B. Richards. Vita. Includes bibliographical references (p. 40). Tilt rotor aircraft Aerodynamics
2	An aeroelastic study of the conversion maneuver of tiltrotor aircraft Mehdi, Mohamed 12 1900 (has links) No description available. Tilt rotor aircraft Aerodynamics Aeroelasticity
3	Download reduction on a wing-rotor configuation Matos, Catherine Anne Moseley 12 1900 (has links) No description available. Tilt rotor aircraft Rotors Dynamics Aerodynamics
4	Investigation of a stop-fold tiltrotor Bosworth, Jeff. January 2009 (has links) Thesis (M. S.)--Aerospace Engineering, Georgia Institute of Technology, 2010. / Committee Chair: Hodges, Dewey; Committee Member: Bauchau, Olivier; Committee Member: Sankar, Lakshmi. Part of the SMARTech Electronic Thesis and Dissertation Collection.
5	Aeroelastic optimization of a composite tilt rotor Soykasap, Omer 05 1900 (has links) No description available. Tilt rotor aircraft Testing Rotors (Helicopters) Aerodynamics Aeroelasticity
6	Designing, Modeling and Control of a Tilting Rotor Quadcopter Nemati, Alireza 13 September 2016 (has links) No description available. Electrical Engineering UAV Tilt-Rotor Quadcopter Nonlinear Control Modeling
7	Flight Control Of A Tilt Duct Uav With Emphasis On The Over Actuated Transition Flight Phase Unlu, Tugba 01 October 2009 (has links) (PDF) In the thesis, automatic flight control system is designed for Tilt Duct Unmanned Aerial Vehicle (UAV). The vehicle is a Vertical Take-Off Landing (VTOL) type with two symmetric rotors on the wings, one aft rotor on the aft body. It behaves like a helicopter but with higher speeds in forward flight. Transition flight of the aircraft from hover to cruise or take-off to forward flight is the primary concern of the thesis study with the nonlinearities and instabilities encountered, together with the over-actuated controls in this mode. A nonlinear simulation code is developed including nonlinear equations of motion together with the nonlinear aerodynamics, environmental eects, and rotor dynamics. Trim and linearization codes are also developed. Trim conditions for the transition flight phase are calculated for two different transition scenarios. Linear controllers are developed and nonlinear controller is designed for the transition mode. Nonlinear controller uses the state dependent Ricatti equation SDRE approach by using extended linearization. Two loop approach is used in order to increase controllability. In the inner loop, attitude rates are fed back and SDRE approach is used to calculate the feedback gain matrix online. In the outer loop, vehicle attitude is controlled using the eigenvalue assignment. Blended inverse algorithm based control allocation method is used in control of the over-actuated transition phase. This algorithm is shown to be quite effective among different methods in not only generating necessary forces needed for the control, but also allocating with more control authority on the desired actuator.
8	Investigation of a stop-fold tiltrotor Bosworth, Jeff 09 July 2009 (has links) In 1967 the US Air Force solicited proposals for ``low-disc-loading [Vertical Takeoff and Landing] configurations suitable for high speed flight.' Bell Helicopter elected to respond with a proposal after initial analysis on configurations including a stopped edgewise disc and a trail rotor. They concluded that a folding proprotor design would best meet the requirements laid forth. Initial analysis work began on this folding proprotor (stop-fold) design in the same year and concluded in 1972 with a full scale 25 foot diameter pylon and rotor assembly wind tunnel test at the NASA-Ames Large Scale Wind Tunnel. The project was concluded at this point and never resulted in a production or research aircraft. The original proposed stop-fold tiltrotor design by Bell Helicopter allowed for vertical takeoff and landing, a transition sequence rotating the pylon rotor assembly from helicopter to airplane mode, a conversion sequence during which the rotor stopped and blades folded along the pylon, and a transition from prop thrust to auxiliary jet engine power while the rotor was being stopped. This configuration effectively removes the high-speed restraints typical of a prop-driven aircraft and instead opens a flight envelope comparable to a fixed-wing jet. This project entails both the simulation and basic analysis of the stop-fold concept with special attention to frequency responses and potential coupling between modes. Tiltrotor High speed rotorcraft Folding tiltrotor Tilt rotor aircraft Vertically rising aircraft Aeroelasticity Aerodynamics Rotors (Helicopters)
9	Non-Linear Control of a Tilt-Rotor Quadcopter using Sliding Mode Technique Sridhar, Siddharth 16 June 2020 (has links) No description available. Aerospace Materials Sliding Mode Control Tilt-Rotor Quadcopter UAV Non-Linear Control
10	Autonomous Control of Advanced Multirotor Unmanned Aerial Systems Kumar, Rumit 24 May 2022 (has links) No description available. Aerospace Materials Tilt-Rotor Quadcopter Autonomous UAV Advanced Multirotor UAV Autopilot Sliding-Arm Quadcopter Flight Control

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