• Title/Summary/Keyword: Spacecraft Dynamic Simulator

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A study on the development of satellite dynamic simulator hardware (위성체 성능 시험 장치 개발에 관한 연구)

  • 용상순;김영학;김진철
    • 제어로봇시스템학회:학술대회논문집
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    • 1993.10a
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    • pp.788-792
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    • 1993
  • The objective of this study is to develope a satellite dynamic simulator, which can test and analyze the performance of spacecraft attitude control, antenna pointing instruments, communication equipments and spacecraft components under the space environment. The satellite simulator can be used to predict the events such as malfunction and failure of satellites in space during operation and can be used to protect against emergencies. At first, the performance test system of attitude control is investigated which can simulate motion and verify stability of spacecraft. Our system consists of an attitude control main processor and a sub-processor including some real hardwares such as attitude sensors and actuators. In this paper, we describe the procedure of designing and manufacturing the dynamic simulator hardware, which consists of the central processor board, the sub-processor board and the sun sensor, and also communication between the components.

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Conceptual Design of Korea Aerospace Research Institute Lunar Explorer Dynamic Simulator

  • Rew, Dong-Young;Ju, Gwang-Hyeok;Kang, Sang-Wook;Lee, Sang-Ryool
    • Journal of Astronomy and Space Sciences
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    • v.27 no.4
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    • pp.377-382
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    • 2010
  • In lunar explorer development program, computer simulator is necessary to provide virtual environments that vehicle confronts in lunar transfer, orbit, and landing missions, and to analyze dynamic behavior of the spacecraft under these environments. Objective of simulation differs depending on its application in spacecraft development cycle. Scope of use cases considered in this paper includes simulation of software based, processor and/or hardware in the loop, and support of ground-based flight test of developed vehicle. These use cases represent early phase in development cycle but reusability of modeling results in the next design phase is considered in defining requirements. A simulator architecture in which simulator platform is located in the middle and modules for modeling, analyzing, and three dimensional visualizing are connected to that platform is suggested. Baseline concepts and requirements for simulator development are described. Result of trade study for selecting simulation platform and approaches of defining other simulator components are summarized. Finally, characters of lunar elevation map data which is necessary for lunar terrain generation is described.

Development of KOMPSAT-2 Vehicle Dynamic Simulator for Attitude Control Subsystem Functional Verification (인공위성 자세제어 부시스템 기능시험을 위한 KOMPSAT-2 동체 시뮬레이터 개발)

  • 석병석
    • Journal of Institute of Control, Robotics and Systems
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    • v.10 no.10
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    • pp.956-960
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    • 2004
  • The Vehicle Dynamic Simulator(VDS) is a key equipment of the performance verification of attitude control subsystem and it simulates the real dynamic environment that spacecraft undergoes during mission operation. All the software models and hardware interfaces necessary for the closed-loop simulation of the spacecraft dynamics are implemented. Using VDS, KOMPAT-2 attitude control logic functions and performance was verified. In this paper, the hardware and software configurations of KOMPSAT-2 VDS was described briefly and the information flow and exchanges between software models and actual hardwares during close loop simulation was described in the systematic point of view.

Measuring and Generation the speed of reaction wheel for Spacecraft Dynamic Simulator using the T-Method (위성동역학 시뮬레이터용 T-방식을 이용한 반작용휠 속도 측정 및 펄스 생성)

  • Kim, Yong-Bok;Oh, Si-Hwan;Lee, Seon-Ho;Yong, Ki-Lyok;Rhee, Seung-Wu
    • Aerospace Engineering and Technology
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    • v.6 no.1
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    • pp.74-82
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    • 2007
  • The M-Method that measures the speed of actuator with counting the number of Reaction wheel Tacho Pulse has the many advantages such that a realization is simple and measuring time is uniform, but it also has the disadvantage that measuring speed becomes worse as the wheel speed goes lower. On the contrary, the T-Method that measures the time duration between the pulses is more accurate at lower-speed and its time delay is smaller than M-Method, but its realization is more difficult than M-Method because measuring time is varying with wheel speed variation. Thought M/T Method mixing M-Method with T-Method is widely used in order to measure the speed in the motor industrial area, one of two methods has been used in the spacecraft design area. Therefore, we try to apply both methods together to measuring the speed of Reaction Wheel, the core actuator for low earth orbit satellite. This paper provides the Reaction Wheel simulation board located in the Spacecraft Dynamic Simulator, ground support test set.

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Development ERC32 Processor Emulator based on QEMU (QEMU를 기반으로 한 ERC32 프로세서 에뮬레이터 개발)

  • Choi, Jong-Wook;Shin, Hyun-Kyu;Lee, Jae-Seung;Cheon, Yee-Jin
    • Aerospace Engineering and Technology
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    • v.10 no.2
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    • pp.105-113
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    • 2011
  • During the development of flight software, the processor emulator and satellite simulator are essential tools for software development and verification, which can be substituted for the actual hardware. LEO satellites being developed by KARI recently use the MCM-ERC32SC processor for on-board computer (OBC). For the flight software (FSW) development and testing, the software-based spacecraft simulator was developed using TSIM-ERC32 processor emulator from Aeroflex Gaisler. It is needed to get rid of the constraints and dependencies of TSIM-ERC32 processor emulator and to obtain high performance processor emulator to develop full satellite simulator. This paper presents the development of the ERC32 emulator based on open source dynamic translator, QEMU, as the first step. And it describes the software development and testing/debugging on the developed emulator.