• Title/Summary/Keyword: 비행 고도

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Suggestion of Re-Classification of Low Altitude Airspace to Cope with Drone Era (드론 시대에 대처하기 위한 저고도 공역의 재설정 제안)

  • Gu, Sam-Ok
    • 한국항공운항학회:학술대회논문집
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    • 2015.11a
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    • pp.59-62
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    • 2015
  • 급증하고 있는 드론(무인항공기) 분야의 기술 개발과 보급이 활발해지는 효과의 반대급부로서 기존의 유인 항공기 운항의 안전이 위협받고 있다. 본 논문에서는 초경량/소형 드론이 비행하도록 지정된 저고도 공역에 대한 현 제도의 문제를 분석하고 드론의 비행 증가에 따른 항공안전을 확보하기 위한 저고도 공역 재설정을 포함한 공역 제도 개선 방안을 제안한다.

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A research on the pressure error correction (기압오차 보정에 관한 연구)

  • Lee, Ju-Ha;Yoo, Tae-Euk
    • Journal of the Korean Society for Aviation and Aeronautics
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    • v.3 no.1
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    • pp.145-159
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    • 1995
  • 정확한 고도, 속도의 측정은 항공기의 효율적인 운영과 안전에 필수적이다. 정확한 고도의 측정은 지형 장애물의 회피와 항로상에서 최저 수직 고도 분리를 유지하기 위해 절대적으로 필요하다. 또한 정확한 속도의 측정은 저속(실속상태)에서 조종상실을 피하고 고속에서 항공기의 구조적 한계와 공기 역학적 한계의 초과를 방지한다. 따라서 비행시험을 통하여 고도와 속도를 정확히 보정해줌으로써 비행안전과 재산상의 손실을 막을 수 있다.

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Development of the Pilot-Tube to Measure Flight Altitude and Velocity (비행체 고도 및 속도계측용 Pilot-Tube 연구)

  • 최진철;이기권;박찬우
    • Journal of the Korean Society of Propulsion Engineers
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    • v.5 no.3
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    • pp.19-24
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    • 2001
  • The Pilot-Tube is the device that measures velocity and altitude of high speed vehicle. Accurate measurements of speed and altitude are essential to the safe and efficient operation of aircraft. For the purpose of determining optimal design parameters of Pilot-Tube such as nose inlet configuration, nose shape, static hole configuration, and static hole location, subsonic flow field was calculated numerically and analyzed. A Pilot-Tube was manufactured based on numerical flow field analysis, and pressure and air velocity was measured experimentally in the wind tunnel. As a result manufacturing and design technologies of the Pilot-Tube were acquired to make flight-device.

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Design Parameter Analysis of a Solar-Powered, Potential Energy-Storing, Long Endurance UAV (위치에너지를 축적하는 태양동력 장기체공 무인기의 설계 인자 분석)

  • Yang, In-Young;Lee, Bo-Hwa;Chang, Byung-Hee
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.39 no.10
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    • pp.927-934
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    • 2011
  • Design parameter analysis is performed for a solar-powered UAV, storing potential energy by climb flight. Parameters related to the flight for saving potential energy, i.e. minimum & maximum altitudes for level flight, gliding & climbing angle, design point speed & altitude, gliding & climbing start time are investigated as design parameters. Weight and size of the UAV are determined using a weight model for the components of the solar-powered UAVs. Produced energy and consumed energy are calculated using these weight and size, yielding the required weight of the battery for a given mission. Relationship between the total weight of the UAV and each parameter is investigated. For the parameters listed above, there exist their ranges only where the design is possible. And there exist optimal values of these parameters minimizing the total weight.

Flight control of a small unmanned aerial vehicle using a dynamic compensator (동적 보상기를 이용한 소형 무인항공기 비행 제어)

  • Kim, Heui-Joo;Kim, Jea-Wook;Lee, Kang-Woong
    • Journal of Advanced Navigation Technology
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    • v.16 no.4
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    • pp.571-577
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    • 2012
  • In this paper, we design a flight controller using a dynamic compensator for a small unmanned aerial vehicle. The proposed method ensures flight stability during altitude holding and waypoints passing by improving the transient response and steady state error. The control system consists of dual feedback loops with an inner loop and a outer loop. The inner loop has a PD controller to improves the transient response and the outer loop has a dynamic compensator to reduce overshoot in the transient response and improve the steady state error. The performance of the proposed method is evaluated by flight test on a small UAV.

Development and Estimation of Low Price-Small-Autopilot UAS for Geo-spatial Information Aquisition (지형정보획득용 저가 소형 자동항법 UAS개발 및 평가)

  • Han, Seung Hee
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.34 no.4
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    • pp.1343-1351
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    • 2014
  • Recent technological advances in wireless networks and microelectromechanical systems (MEMS) have led to the development of different types of mini-UAVs and their utilizations in various ways. This study endeavors to develop a low-cost mini-UAV with autonomous flight capability, in order to obtain geospatial information of a small or medium-sized area, and also assess its flight stability by comparing the predetermined flight paths against the actual flight paths. Based on a post-development flight test, stable flight has been proven achievable as follows: the maximum endurance speed is 1 hour, the flying distance is 50km, the horizontal accuracy of flight paths is about ${\pm}6{\sim}8m$, and the altitude accuracy is about ${\pm}8m$. Therefore, it is deemed that high-resolution images which can be utilized for geospatial information are obtainable. This indicates that a UAV flying at an altitude of 200m can acquire images across a $2km{\times}3km$ area on the ground within 25 minutes, which validates its high usability for obtaining high-solution images at low altitudes in the future.

An Implementation Control Stick and Flying Attitude in Flight Simulator (Flight Simulator에서의 조종간 조작에 따른 비행자세 구현 방법)

  • 한용식
    • Proceedings of the Korea Society for Simulation Conference
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    • 1999.10a
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    • pp.150-155
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    • 1999
  • 비행 Simulator는 조종사가 실제 비행할 때와 같은 느낌을 받도록 구성되어야 하는데 조종사가 비행을 느끼게 되는 것은 여러 가지 감각기관을 통한 종합적인 느낌이다. 시각을 위하여 계기가 현재 비행 상태를 표시해야되고 외부 경치에서 고도, 속도, 자세 및 상승률을 감지하여야 한다. 이런 외부상태를 표시하기 위해서는 조종사의 Stick조작에 의한 비행기의 위치 변화와 속도 등을 실시간으로 계산하여 Graphic Engine과 Actuator로 데이터를 전송하여야 한다. 이러한 Parameter를 결정하기 위해서는 조정사의 조작에 의한 stick의 위치와 그로 인한 항공기의 자세 그리고 상태와 비행 속도 등에 따라 결정되며, 대상 항공기에 대한 제원으로 부터 조종사가 조종간의 이동크기와 조종면의 각 변위와의 관계를 계산하여 위치, 방향과 높이에 관한 Parameter를 계산해 줄 수 있는 방법 구현하였다.

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Helicopter Landing Gear Ground Reaction Simulation (헬리콥터 강착장치 시뮬레이션)

  • 최형식;전향식;오경륜;배중원;남기욱
    • Proceedings of the Korea Society for Simulation Conference
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    • 2004.05a
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    • pp.131-135
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    • 2004
  • Landing gear force reaction module is important for aircraft take off and landing simulation. But usually this modulo is not accounted for control law design simulation. because it does not affect the flying quality of aircraft. Now a days, this module is getting more important according to the increase of needs for training purpose simulation and specific control law design such as unmaned aircraft landing on the moving platform. In this paper 1DOF mass spring simple force system per gear was accepted.

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Design of Flight Data Processing System for Multiple Target Flight Test (다중표적 비행시험을 위한 비행 자료처리 시스템 설계)

  • Chong, Kyoung-Ho;Oh, Se-Jin;Bang, Hee-Jin;Lee, Yong-Jae;Kim, Heung-Bum
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.38 no.10
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    • pp.1012-1019
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    • 2010
  • In this paper, The flight data processing system was designed for multiple target flight test. For flight data processing, multiple target grouping, data fusion processing, and data slaving processing were performed and, as a data fusion filter, centralized, and federated Kalman filters were designed. A centralized kalman filter was modified in order to improve the vehicle's low altitude measurement using radar's SNR and estimation process. From the testing of multiple target missile, it confirmed flight trajectory measurement was improved in low altitude area and the beginning stage of vehicle.

Linear Quadratic Controller Design of Insect-Mimicking Flapping Micro Aerial Vehicle (곤충모방 날갯짓 비행체의 LQ 제어기 설계)

  • Kim, Sungkeun;Kim, Inrae;Kim, Seungkeun;Suk, Jinyoung
    • Journal of Advanced Navigation Technology
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    • v.21 no.5
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    • pp.450-458
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    • 2017
  • This paper presents dynamic modelling and simulation study on attitude/altitude control of an insect-mimicking flapping micro aerial vehicle during hovering. Mathematical modelling consists of three parts: simplified flapping kinematics, flapping-wing aerodynamics, and six degree of freedom dynamics. Attitude stabilization is accomplished through linear quadratic regulator based on the linearized model of the time-varying nonlinear system, and altitude control is designed in the outer loop using PID control. The performance of the proposed controller is verified through numerical simulation where attitude stabilization and altitude control is done for hovering. In addition, it is confirmed that the attitude channel by periodic control is marginally stable against periodic pitching moment caused by flapping.