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Development of the Arcsecond Pico Star Tracker (APST) 원문보기

Transactions of the Japan Society for Aeronautical and Space Sciences, v.60 no.6, 2017년, pp.355 - 365  

MURUGANANDAN, Vishnu Anand (Institute of Advanced Aerospace Technology, Department of Mechanical and Aerospace Engineering, Seoul National University) ,  PARK, Ji Hyun (Institute of Advanced Aerospace Technology, Department of Mechanical and Aerospace Engineering, Seoul National University) ,  LEE, Sangyoon (Institute of Advanced Aerospace Technology, Department of Mechanical and Aerospace Engineering, Seoul National University) ,  JEUNG, In-Seuck (Institute of Advanced Aerospace Technology, Department of Mechanical and Aerospace Engineering, Seoul National University) ,  KIM, Sangkyun (Laboratory of Space Environment Interaction Engineering, Kyushu Institute of Technology) ,  JU, Gwanghyeok (Lunar Exploration Program Office, Korea Aerospace Research Institute)

Abstract AI-Helper 아이콘AI-Helper

The second-generation star tracker estimates pointing knowledge of a satellite without a-priori knowledge. But star trackers are larger in size, heavier, power hungry and expensive for nanosatellite missions. The Arcsecond Pico Star Tracker (APST) is designed based on the limitations of nanosatellit...

참고문헌 (25)

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  2. 2) Segert, T., Engelen, S., Buhl, M., and Monna, B.: Development of the Pico Star Tracker ST-200—Design Challenges and Road Ahead, 25th Annual AIAA/USU, SSC11-IX-4, 2011. 

  3. 3) Dzamba, T., Enright, J., Sinclair, D., Amankwah, K., Votel, R., Jovanovic, I., and McVittie, G.: Success by 1000 Improvements: Flight Qualification of the ST-16 Star Tracker, 28th Annual AIAA/USU, SSC14-XII-1, 2014. 

  4. 10.3182/20140824-6-ZA-1003.00267 4) Erlank, A. O. and Steyn, W. H.: Arcminute Attitude Estimation for Cubesats with a Novel Nano Star Tracker, IFAC, Vol. 47, 2014, pp. 9679-9684. 

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  5. 5) Schwarz, T.: Prototyping of a Star Tracker for Pico-Satellites, Master Thesis, Julius-Maximilians-University, Wuerzburg, Germany, 2015. 

  6. 6) Sinclair Interplanetary, http://www.sinclairinterplanetary.com/ (cited July 2016). 

  7. 7) HIP-2, http://www.cosmos.esa.int/web/hipparcos/hipparcos-2 (cited July 2016). 

  8. 8) Zakharov, A. I., Prokhorov, M. E., and Tuchin, M. S.: Minimum Star Tracker Specification Required to Achieve a Given Attitude Accuracy, Astrophysical Bulletin , 68 (2013), pp. 481-493. 

  9. 9) Cannata, M. N., Greene, M. R., Mulligan, S. J., and Popovici, V.: Autonomous Star-Imaging Attitude Sensor, York University, Toronto, Canada, 2007. 

  10. 10) Mono Camera Sensor Review, Point Grey, https://www.ptgrey.com/camera-sensor-review (cited March 2016). 

  11. 10.2514/6.2014-4422 11) Marciniak, M. and Enright, J.: Validating Microsatellite Star Tracker Baffle Tests, San Diego, CA, AIAA 2014-4422, 2014. 

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  12. 10.2514/6.2006-5654 12) Huffman, K. M., Sedwick, R. J., Stafford, J., Peverill, J., and Seng, W.: Designing Star Tracker to Meet Micro Satellite Requirement, AIAA 2006-5654, 2006. 

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  13. 13) Liebe, C. C., Alkalai, L., Domingo, G., Hancock, B., Hunter, D., Mellstrom, J., Ruiz, I., Sepulveda, C., and Pain, B.: Micro APS Based Star Tracker, IEEE, Vol. 5, 2002, pp. 2285-2299. 

  14. 14) Enright, J., Sinclair, D., and Dzamba, T.: The Things You Can’t Ignore: Evolving a Sub-Arcsecond Star Tracker, AIAA/USU, SSC12-X-7, 2012. 

  15. 15) Gwanghyeok, J.: Autonomous Star Sensing, Pattern Identification and Attitude Determination for Spacecraft: An Analytical and Experimental Study, Ph.D Thesis, Texas A&M University, 2001. 

  16. 16) Spratling, B. B., IV and Mortari, D.: A Survey on Star Identification Algorithms, Algorithms , 2 , 1 (2009), pp. 93-107. 

  17. 17) Ju, G. and Junkins, J. L.: Overview of Star Tracker Technology and Its Trends in Research and Development, AAS Paper No. 03-285, AAS John L. Junkins Astrodynamics Symposium, College Station, TX, USA, May, 2003. 

  18. 18) Ju, G., Kim, H., Pollock, T. C., Junkins, J. L., Juang, J., and Mortari, D.: Lost-In-Space: Star Pattern Recognition and Attitude Estimation for the Case of No Prior Attitude Information, 23rd Annual AAS Guidance and Control Conference, Breckenridge, CO, Feb., AAS 00-004, 2000. 

  19. 10.1007/978-3-319-18209-4 19) McKechnie, S.: General Theory of Light Propagation and Imaging through the Atmosphere , Springer, Saint Andrews, Scotland, 2016. 

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  20. 20) Du, Y., He, Y., Chen, H., Xin, W., and Xue, B.: Calculation Method of Earth-Atmosphere Stray Light Illuminance on Low-orbit Space Cameras, J. Multimedia , 8 , 6 (2013), pp. 699-704. 

  21. 10.1007/s11771-012-1426-2 21) Zhao, S.-F., Wang, H.-T., Wang, Y., and Ji, C.-Y.: Space Luminous Environment Adaptability of Missile-borne Star Sensor , Central South Unviersity Press and Springer-Verlag, Berlin, Hidelberg, 2012. 

    상세보기 crossref

  22. 10.1117/3.1000980 22) Fest, E. C.: Stray Light Analysis and Control , SPIE Press, Bellingham, Washington, USA, 2013. 

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  23. 23) Jacobs, M. J.: A Low Cost High Precision Star Sensor, Master Thesis, University of Stellenbosch, South Africa, 1995. 

  24. 24) Heinisch, J.: Light Baffle Attenuation Measurement in the Visible, Applied Optics , 10 , 9 (1971), pp. 2016-2020. 

  25. 25) Muruganandan, V. A., Park, J. H., Maskey, A., and Jeung, I.-S.: The Estimation of Radiation Exposure for Arcsecond Pico Star Trackers (APST) in Low Earth Orbit, APISAT-2016-C5-5, 2016. 

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