• Title/Summary/Keyword: Scientific Payload

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3단형 과학로켓의 탑재부 구조설계

  • Jang, Young-Soon;Yi, Yeong-Moo
    • Aerospace Engineering and Technology
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    • v.1 no.1
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    • pp.117-127
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    • 2002
  • In this paper, structure design of the payload section of the KSR-III was performed. The payload section of the KSR-III, which corresponds to the second stage, consists of the Scientific Payload Section for the mission of the rocket, the Payload Section (Electronics) for the communication between the rocket and the ground station, and the Payload Section (Attitude Control) for the attitude control of the rocket. In order to accomplish the mission, every payload and component should operate successfully during the mission period and the structure must satisfy the requirements of the payloads. In this research, precise composition of the payload section and payloads arrangement of the KSR-III were performed. And the modification of the structure to meet the requirements were described.

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Product Assurance for the Payload of the Satellite System (위성 탑재체 제품보증에 대한 고찰)

  • Kim, Il-Young;Kwon, Jai-Wook;Moon, Sang-Man;Seok, Byong-Seok
    • Journal of Aerospace System Engineering
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    • v.11 no.2
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    • pp.30-34
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    • 2017
  • This paper is concerned with product assurance for the secondary payload, which is used for technology and science research, in the satellite system, which consists primarily of the spacecraft and the primary payload (a high-resolution optical camera). The Korean satellite development program has successfully insured the safety of the spacecraft and primary payload. However, given the limits of budget and schedule, it is very important to establish adequate product assurance for the secondary payload, which has a lower priority than the spacecraft or primary payload. This paper studies the concept of product assurance for the secondary payload of technological and scientific equipment.

KMAG payload instrument of Korea Pathfinder Lunar Orbiter

  • Jin, Ho;Kim, Khan-Hyuck;Son, Derac;Lee, Seongwhan;Lee, Hyojeong;Lee, Jung-Kyu;Lee, Mangyu;Lee, Seungah;Shin, Jehyuck;Garrick-Bethell, Ian
    • The Bulletin of The Korean Astronomical Society
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    • v.42 no.2
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    • pp.89.2-89.2
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    • 2017
  • Korea Pathfinder Lunar Orbiter (KPLO) is a first Korean Lunar exploration mission. KPLO is equipped with four payloads in Korea and one payload in United States. KMAG is one of Korean payloads to measure the Moon's magnetic field. Moon has a no dipole magnetic field such as earth's global magnetic field. But there are many curious crustal magnetic anomalies. these features still do not well understood. This is a main scientific objective of KMAG payload and the study of space environment around moon is a second objective. KMAG has three magnetometers which are mounted in the edge of the 1.2 meter boom. This paper shows a KMAG's requirements, instrument description, and a preliminary function test results.

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KSR-III 과학탑재 시스템 개발

  • Hwang, Seung-Hyun;Kim, Jhoon;Chun, Young-Doo;Kim, Yong-Ha;Jang, Min-Hwan
    • Aerospace Engineering and Technology
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    • v.1 no.2
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    • pp.83-90
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    • 2002
  • This paper describes the development of scientific payload system onboard the KSR-III. The ozone detector(UVR), Langmuir electron probe(LEP), airglow photometer(AGP), and magnetometer(MAG) constitute this system. The purpose of the ozone detector is to measure the ozone density profile and the LEP measures the electron density and temperature in the ionosphere over the Korean Peninsula. The AGP detects airglow in the mesosphere over the Korean Peninsular. The MAG provides rocket attitude and the magnetic fluctuation information during the flight. With the developed payloads, the ground calibration tests and the environmental tests have been performed.

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Development Status and Study of the Sounding Rocket (국내외 Sounding Rocket 개발현황 및 발전방향)

  • Kim, Jin-Yong;Rho, Tae-Ho;Lee, Won-Bok;Suh, Hyuk;Rhee, Young-Woo
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2011.04a
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    • pp.466-475
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    • 2011
  • This paper presents development status of sounding rockets containing scientific payload and telemetry at home and abroad. The case of outside, United States is launching sounding rockets in 20-30 flights per year by the NASA program which offers to carry payload weights of 38-680 kg and altitude of 88-1500 km. Europe is launching in 4-5 flights per year by the ESA program. The case of Korean sounding rockets was successful with the launch of three times(KSR-I,II,III), but Korea lags far behind the advanced countries in the field of development technologies for space launch vehicle. We expect that our scientific and industrial technologies will be improved through the research and development of sounding rockets. In this study we proposed necessity and future direction of development in domestic sounding rockets.

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Development Status and Study of the Sounding Rocket (국내외 Sounding Rocket 개발현황 및 발전방향)

  • Kim, Jin-Yong;Rho, Tae-Ho;Lee, Won-Bok;Suh, Hyuk;Rhee, Young-Woo
    • Journal of the Korean Society of Propulsion Engineers
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    • v.15 no.3
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    • pp.70-79
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    • 2011
  • This paper presents development status of sounding rockets containing scientific payload and telemetry at home and abroad. The case of outside, United States is launching sounding rockets in 20-30 flights per year by the NASA program which offers to carry payload weights of 38-680 kg and altitude of 88-1500 km. Europe is launching in 4-5 flights per year by the ESA program. The case of Korean sounding rockets was successful with the launch of three times(KSR-I,II,III), but Korea lags far behind the advanced countries in the field of development technologies for space launch vehicle. We expect that our scientific and industrial technologies will be improved through the research and development of sounding rockets. In this study we proposed necessity and future direction of development in domestic sounding rockets.

THE LYMAN-α IMAGING SOLAR TELESCOPE (LIST) ON THE KOREA SCIENCE AND TECHNOLOGY SATELLITE-2 (STSAT-2)

  • JANG M.
    • Journal of The Korean Astronomical Society
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    • v.36 no.spc1
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    • pp.145-149
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    • 2003
  • LIST is the Lyman-$\alpha$ Imaging Solar Telescope, a project funded by the Korean government to fly on the second Korean Science and Technology research Satellite (STSat-2) due to launch in December 2005. The Principal Investigator is Dr. Minhwan Jang of Kyung-Hee University and of the Space Payload Research Center (SPARC), a consortium of Korean universities and institutions formed to develop scientific research projects in space. The purpose of the LIST project is to design, build, and operate an instrument on STSat-2 which will make images of the Sun from Earth orbit at the wavelength of the Hydrogen Lyman-a emission line at 121.6 nm. LIST has a simple design concept comprised of a small telescope to image the full disk of the Sun onto a CCD detector and a set of filters to isolate the 121.6 nm wavelength.

FEASIBILITY STUDY OF SYNTHETIC APERTURE RADAR - ADAPTABILITY OF THE PAYLOAD TO KOMPSAT PLATFORM

  • Kim, Young-Soo;Lee, Sang-Ryool
    • Journal of Astronomy and Space Sciences
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    • v.19 no.3
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    • pp.225-230
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    • 2002
  • Synthetic Aperture Radar (SAR) has been used for mapping the surface geomorphology of cloudy planets like Venus as well as the Earth. The cloud-free Mars is also going to be scanned by SAR in order to detect buried water channels and other features under the very shallow subsurface af the ground. According to the 'Mid and Long-term National Space Development Plan' of Korea, SAR satellites, in addition to the EO (Electro-Optical) satellites, are supposed to be developed in the frame of the KOMPSAT (Korean Multi-Purpose Satellite) program. Feasibility of utilizing a SAR payload on KOMPSAT platform has been studied by KARI in collaboration with Astrium U.K. The purpose of the ShR program is Scientific and Civil applications on the Earth. The study showed that KOMPSAT-2 platform can accommodate a small SAR like Astrium’s MicroSAR. In this paper, system aspects of the satellite design are presented, such as mission scenario, operation concept, and capabilities. The spacecraft design is also discussed and conclusion is followed.

Scientific Achievements and Technology Trends of Mass Spectrometers for Space Exploration (우주탐사용 질량분석기들의 과학적 성과와 기술 동향)

  • Ik-Seon Hong;Yu Yi;Jingeun Rhee;Nam-Seok Lee;Sung Won Kang;Seontae Kim;Kyu-Ha Jang;Cheong Rim Choi;Kyoung Wook Min;Jongil Jung
    • Journal of Space Technology and Applications
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    • v.3 no.1
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    • pp.26-43
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    • 2023
  • As Korean first lunar probe, Danuri, succeeded in entering lunar orbit, Korean new space exploration plans such as Mars exploration can be expected. Korean space exploration payload is developed only in a limited field, so there is a need to create a new space exploration payload. In foreign countries, there is a mass spectrometer as a basic equipment for space exploration, and it is a very useful payload that encompasses the exploration of life through the analysis of organic matter as well as the observation of the atmosphere and volatile substances of the exploration target. However, Korea has never developed a mass spectrometer payload for space exploration, so it is necessary to secure technology in preparation for future space exploration. Before that, we look at the scientific achievements of foreign mass spectrometer payloads for space exploration and identify trends.

System Design of SIGMA(KHUSAT-3) CubeSat Mission

  • Lee, Seongwhan;Lee, Junkyu;Kum, Kanghoon;Lee, Hyojeong;Seo, Junwon;Shin, Youra;Jeong, Seonyoung;Shin, Jehyuck;Cheon, Junghoon;Kim, Hanjun;Jin, Ho;Nam, Uk-Won;Kim, Sunghwan;Lee, Regina;Lessard, Marc R.
    • The Bulletin of The Korean Astronomical Society
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    • v.39 no.1
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    • pp.54.1-54.1
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    • 2014
  • Kyung Hee University has been developing a CubeSat for the space science mission called SIGMA (Scientific cubesat with Instrument for Global Magnetic field and rAdiation), which includes TEPC (Tissue Equivalent Proportional Counter) and a magnetometer. SIGMA has a 3-unit CubeSat, and the weight is about 3.2 kg. The main payload is TEPC which can measure the Linear Energy Transfer (LET) spectrum and calculate the equivalent dose for the complicated radiation field in the space. The magnetometer is a secondary payload using a miniaturized fluxgate magnetometer. We expect it to have a 1 nT resolution in the dynamic range of ${\pm}65535$ nT. An Attitude Control System (ACS) spins the SIGMA spacecraft 4 rpm with the spin axis perpendicular to the ecliptic plane. Full duplex communication is consists of VHF uplink and S-band and UHF downlink. In this paper, we introduce the system design and the scientific purpose of the SIGMA CubeSat mission.

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