• 제목/요약/키워드: Flight Controller

검색결과 290건 처리시간 0.022초

적분누적 방지기법 기반 자세제어기를 이용한 쿼드로터 개발과 호버링 자세 제어 비행 실험 (Development of Quad-rotor with Anti-Windup Based PI controller and Hovering Attitude Control Flight Test)

  • 박대진;박천건;이상철
    • 한국항공운항학회지
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    • 제26권3호
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    • pp.48-54
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    • 2018
  • This paper deals with a development of a quad-rotor for a hovering attitude control. First, a rotational dynamics are derived to design an attitude controller. The attitude controller is based on PI (Proportional-Integral) controller. For a stable attitude control, an anti-windup method applies to the PI attitude controller. Additionally, a complementary filter is used to obtain more reliable attitude. Gain values of the attitude controllers based on the anti-windup method are obtained through tests. Finally, the quad-rotor with the anti-windup based PI attitude controller is developed and a hovering attitude control flight tests are performed. As a result, the developed quad-rotor is capable of stable hovering.

Design, Implementation, and Flight Tests of a Feedback Linearization Controller for Multirotor UAVs

  • Lee, Dasol;Lee, Hanseob;Lee, Jaehyun;Shim, David Hyunchul
    • International Journal of Aeronautical and Space Sciences
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    • 제18권4호
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    • pp.740-756
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    • 2017
  • This paper proposes a feedback-linearization-based control algorithm for multirotor unmanned aerial vehicles (UAVs). The feedback linearization scheme is highly efficient for considering nonlinearity between the rotational and translational motion of multirotor UAVs. We also propose a dynamic equation that reflects the aerodynamic effects of the vehicles; the equation's parameters can be determined through curve fitting using actual flight data. We derive the feedback linearization controller from the proposed dynamic equation, and propose a Luenberger observer to attenuate measurement noises. The proposed algorithm is implemented using our in-house flight control computer, and we describe its implementation in detail. To investigate the performance of the proposed algorithm, we carry out two flight scenarios: the first scenario, an autonomous landing on a moving platform, is a test of maneuverability; the second, picking up and replacing an object, test the algorithm's accuracy. In these scenarios, the proposed algorithm precisely controls multirotor UAVs, and we confirm that it can be successfully applied to real flight environments.

틸트로터 무인기 편대비행 시뮬레이션 연구 (Simulation Study on Formation Flight of Tiltrotor UAVs)

  • 박범진;강영신;조암;유창선
    • 한국항공우주학회지
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    • 제46권12호
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    • pp.1012-1020
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    • 2018
  • 한국항공우주연구원에서 개발된 틸트로터 무인기의 임무비행 능력을 높이기 위하여, 무인기의 자율화 기술 5단계 수준의 편대비행에 대한 연구가 수행되었다. 편대비행은 선행기와 추종기로 구성된 중앙 집중형 방식이 적용되었다. 편대비행 제어기는 3대의 추종기를 이용한 수치 시뮬레이션과 1대의 추종기를 이용한 하드웨어 기반 시뮬레이션을 통해 검증되었다. 본 논문에서는 제어기 설계 방법, 하드웨어 기반 시뮬레이션 시험, 그리고 시뮬레이션을 통한 성능 검증에 대해서 기술하였다.

모형 헬리콥터 정지비행제어에 관한 연구 (A Study on Hovering Flight Control for a Model Helicopter)

  • 심현철;이은호;이교일
    • 대한기계학회논문집
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    • 제18권6호
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    • pp.1399-1411
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    • 1994
  • A model helicopter has more versatile flight capability than the fixed-wing aircraft and it can be used as an unmaned vehicle in hazardous area. A helicopter, similar to other aircrafts, is an unstable, multi-input multi-output nonlinear system exposed to strong disturbance. So it should be controlled by robust control theories that can be applied to multivariable systems. In this study, motion equations of hovering are established, linearized and transformed into a state equation form. Various parameters are measured and calculated in other to obtain the stability derivatives in the state equation. Hovering flight controller is designed using the digital LQG/LTR(Linear Quadratic Gaussian/Loop Transfer Recovery) control theory. The designed controller is tested by the nonlinear simulations and implemented on an IBM-PC/386. Experiments were carried out on a model helicopter attached to the 3-DOF gimbal. The designed controller showed satisfactory hovering capability to maintain the hovering for more than 40 seconds.

Minimal Order LQG/LTR 기법에 의한 모형헬리콥터의 정지비행 자세제어 (Hovering Flight Control for a Model Helicopter using the Minimal-Order LQG/LTR Technique)

  • 양준선;한권희;이자성
    • 대한전기학회:학술대회논문집
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    • 대한전기학회 1998년도 추계학술대회 논문집 학회본부 B
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    • pp.457-459
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    • 1998
  • This paper presents a 3-DOF hovering flight controller for a model helicopter using the minimal order LQG/LTR technique. A model helicopter is an unstable multi-input multi-output nonlinear system strongly exposed to disturbances, so a robust multi-variable control theory should be applied to control it. The minimal order LQG/LTR technique which uses a reduced-order observer in the LTR procedure is used to design the controller. Performances for the 3-DOF hovering flight controller are evaluated through computer simulations.

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신경회로망 및 Backstepping 기법을 이용한 비선형 적응 비행제어 (Nonlinear Adaptive Flight Control Using Neural Networks and Backstepping)

  • 이태영;김유단
    • 제어로봇시스템학회논문지
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    • 제6권12호
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    • pp.1070-1078
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    • 2000
  • A nonlinear adaptive flight control system is proposed using a backstepping controller with neural network controller. The backstepping controller is used to stabilize all state variables simultaneously without the two-timescale assumption that separates the fast dynamics, involving the angular rates of the aircraft, from the slow dynamics which includes angle of attack, sideslip angle, and bank angle. It is assumed that the aerodynamic coefficients include uncertainty, and an adaptive controller based on neural networks is used to compensate for the effect of the aerodynamic modeling error. It is shown by the Lyapunov stability theorem that the tracking errors and the weights of neural networks exponentially converge to a compact set. Finally, nonlinear six-degree-of-freedom simulation results for an F-16 aircraft model are presented to demonstrate the effectiveness of the proposed control law.

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SDRE 기법을 이용한 비선형 헬리콥터의 비행 경로점 유도제어 (Waypoints Guidance of the Nonlinear Helicopter using the SDRE Technique)

  • 김민재;양창덕;홍지승;김창주
    • 대한기계학회논문집A
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    • 제33권9호
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    • pp.922-929
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    • 2009
  • This paper deals with the State-Dependent Riccati Equation (SDRE) Technique for the design of helicopter nonlinear waypoint guidance controller. To generate the flight guidance through multiple waypoints, we use the trigonometric spline. The controller design and its validation is based upon a level 2 simulation helicopter model and the designed SDRE controller is applied to the trajectory tracking problems. To validate the designed SDRE controller, the simulation environment of high fidelity helicopter model is developed using three independent computers. This paper focuses on the validation the present SDRE controller through the helicopter waypoint guidance simulation.

Design of hovering flight controller for a model helicopter

  • Shim, Hyeoncheol;Lee, Ho-Eun;Park, Hyunsik;Lee, Kyo-Il
    • 제어로봇시스템학회:학술대회논문집
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    • 제어로봇시스템학회 1992년도 한국자동제어학술회의논문집(국제학술편); KOEX, Seoul; 19-21 Oct. 1992
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    • pp.344-348
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    • 1992
  • This paper describes a procedure to design a hovering flight controller for a model helicopter using LQG theory. Parameters of the model helicopter in hover are obtained using direct measurements and calculations proposed by other research. A feedback co is by using digital LQG theory. First, a full state feedback controller is designed to the discretized system taking desirable transient response and other assumptions into account. Then a full-state estimator is designed and revised until desirable response is obtained while global stability is maintained. Performance of the controller is tested by computer simulations. Experiments have been performed using a 3-degree-of-freedom gimbal that holds the model helicopter, and the controller exhibited stable hover capability.

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Design of the Automatic Flight and Guidance Controller for 50m Unmanned Airship Platform

  • Lee, Sang-Jong;Kim, Seong-Pil;Kim, Tae-Sik;Kim, Dong-Min;Bang, Hyo-Choong
    • International Journal of Aeronautical and Space Sciences
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    • 제6권2호
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    • pp.64-75
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    • 2005
  • The Stratospheric Airship Platform (SAP) has a capability of performing the autonomous and guidance flight to satisfy given missions. To be used as the High Altitude Platforms (HAPs), the capabilities of controlling platform's accurate position and keeping the station point are the most important features. Under this circumstances Autonomous Flight Control System (AFCS) is a critical system and plays a key role in achieving the given requirements and succeeding in missions. In this paper, the design and analysis results of the AFCS algorithms and controller are presented. The brief summary of the AFCS hardware structure is also explained. The autopilot controller and guidance logics were designed based on the linear dynamics of the unmanned airship platform and the full nonlinear dynamics was considered to evaluate and verify their performances.

Underwater Flight Vehicle의 지능형 심도 제어에 관한 연구 (A Study on a Intelligence Depth Control of Underwater Flight Vehicle)

  • 김현식;황수복;신용구;최중락
    • 한국군사과학기술학회지
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    • 제4권2호
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    • pp.30-41
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    • 2001
  • In Underwater Flight Vehicle depth control system, the followings must be required. First, It needs a robust performance which can get over the nonlinear characteristics due to hull shape. Second, It needs an accurate performance which has the small overshoot phenomenon and steady state error to avoid colliding with ground surface and obstacles. Third, It needs a continuous control input to reduce the acoustic noise. Finally, It needs an effective interpolation method which can reduce the dependency of control parameters on speed. To solve these problems, we propose a Intelligence depth control method using Fuzzy Sliding Mode Controller and Neural Network Interpolator. Simulation results show the proposed control scheme has robust and accurate performance by continuous control input and has no speed dependency problem.

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