$\require{mediawiki-texvc}$

연합인증

연합인증 가입 기관의 연구자들은 소속기관의 인증정보(ID와 암호)를 이용해 다른 대학, 연구기관, 서비스 공급자의 다양한 온라인 자원과 연구 데이터를 이용할 수 있습니다.

이는 여행자가 자국에서 발행 받은 여권으로 세계 각국을 자유롭게 여행할 수 있는 것과 같습니다.

연합인증으로 이용이 가능한 서비스는 NTIS, DataON, Edison, Kafe, Webinar 등이 있습니다.

한번의 인증절차만으로 연합인증 가입 서비스에 추가 로그인 없이 이용이 가능합니다.

다만, 연합인증을 위해서는 최초 1회만 인증 절차가 필요합니다. (회원이 아닐 경우 회원 가입이 필요합니다.)

연합인증 절차는 다음과 같습니다.

최초이용시에는
ScienceON에 로그인 → 연합인증 서비스 접속 → 로그인 (본인 확인 또는 회원가입) → 서비스 이용

그 이후에는
ScienceON 로그인 → 연합인증 서비스 접속 → 서비스 이용

연합인증을 활용하시면 KISTI가 제공하는 다양한 서비스를 편리하게 이용하실 수 있습니다.

[해외논문] Deep Neural Network-Based Landmark Selection Method for Optical Navigation on Lunar Highlands 원문보기

IEEE access : practical research, open solutions, v.8, 2020년, pp.99010 - 99023  

Lee, Hoonhee (Department of Aerospace Engineering, Korea Advanced Institute of Science and Technology, Daejeon, South Korea) ,  Choi, Han-Lim (Department of Aerospace Engineering, Korea Advanced Institute of Science and Technology, Daejeon, South Korea) ,  Jung, Dawoon (Division of Satellite Bus Development, Korea Aerospace Research Institute, Daejeon, South Korea) ,  Choi, Sujin (Division of Space Exploration Research, Korea Aerospace Research Institute, Daejeon, South Korea)

Abstract AI-Helper 아이콘AI-Helper

Spacecraft that rely on self-localization based on optical terrain images require suitable landmark information along their flight paths. When navigating within the vicinity of the moon, a lunar crater is an intuitive choice. However, in highland areas or regions having low solar altitudes, craters ...

참고문헌 (39)

  1. Lro lola Data Sets of PDS Geosciences Node 2020 

  2. 10.1109/CVPR.2017.690 

    crossref

  3. Chang’e-4 Landing (Onboard Camera View) 2019 

  4. Chang’e 3 Chinese Moon Landing—Real Speed 2013 

  5. Rosenburg, M. A., Aharonson, O., Head, J. W., Kreslavsky, M. A., Mazarico, E., Neumann, G. A., Smith, D. E., Torrence, M. H., Zuber, M. T.. Global surface slopes and roughness of the Moon from the Lunar Orbiter Laser Altimeter. Journal of geophysical research : JGR. E : Planets, vol.116, no.e2, E02001-.

    상세보기 crossref

  6. 10.2514/6.2007-4700 

    crossref

  7. J Mach Learn Technol W. Evaluation: from precision, recall and F-measure to ROC, informedness, markedness & correlation powers 2011 2 37 

  8. LRO Project White Paper Version A standardized lunar coordinate system for the lunar reconnaissance orbiter 2008 4 1 

  9. Tour of the Moon 2018 

  10. Lroc Image Search 2019 

  11. Proc 13th Symp Adv Space Technol Robot Autom (ASTRA) Landmarks constellation based position estimation for spacecraft pinpoint landing van pham 2008 28 

  12. Foust, Jeff. Gateway or bust: NASA's plan for a 2024 lunar landing depends on a much-criticized orbital outpost. IEEE spectrum, vol.56, no.7, 32-37.

    상세보기 crossref

  13. 10.1109/AERO.2019.8741766 

    crossref

  14. Merits of a lunar polar base location burke 1985 77 

  15. Strickland, Eliza, Zorpette, Glenn. The coming moon rush: Technology, billionaires, and geopolitics will all help get us back to the moon, but they won't be enough to let us live there indefinitely. IEEE spectrum, vol.56, no.7, 22-25.

    상세보기 crossref

  16. Int Space Development Conf Lunar Development Lab (LDL) concept leading to the first human lunar outpost zuniga 2019 1 

  17. Fisher, E.A., Lucey, P.G., Lemelin, M., Greenhagen, B.T., Siegler, M.A., Mazarico, E., Aharonson, O., Williams, J.P., Hayne, P.O., Neumann, G.A., Paige, D.A., Smith, D.E., Zuber, M.T.. Evidence for surface water ice in the lunar polar regions using reflectance measurements from the Lunar Orbiter Laser Altimeter and temperature measurements from the Diviner Lunar Radiometer Experiment. Icarus, vol.292, 74-85.

    상세보기 crossref

  18. Proc NASA Sci Technol Conf Coupled vision and inertial navigation for pin-point landing trawny 2007 1 

  19. Mourikis, A.I., Trawny, N., Roumeliotis, S.I., Johnson, A.E., Ansar, A., Matthies, L.. Vision-Aided Inertial Navigation for Spacecraft Entry, Descent, and Landing. IEEE transactions on robotics : a publication of the IEEE Robotics and Automation Society, vol.25, no.2, 264-280.

    상세보기 crossref

  20. Shin, Dong Kyun, Ahmed, Minhaz Uddin, Rhee, Phil Kyu. Incremental Deep Learning for Robust Object Detection in Unknown Cluttered Environments. IEEE access : practical research, open solutions, vol.6, 61748-61760.

    상세보기 crossref

  21. Shilane, Philip, Funkhouser, Thomas. Distinctive regions of 3D surfaces. ACM transactions on graphics, vol.26, no.2, 7-.

    상세보기 crossref

  22. Maass, Bolko. Robust approximation of image illumination direction in a segmentation-based crater detection algorithm for spacecraft navigation. CEAS space journal : an official journal of the Council of European Aerospace Societies, vol.8, no.4, 303-314.

    상세보기 crossref

  23. 10.1109/CVPR.2000.854868 

    crossref

  24. Ye, Mao, Li, Fei, Yan, Jianguo, Barriot, Jean-Pierre, Hao, Weifeng, Jin, Weitong, Yang, Xuan. The precise positioning of lunar farside lander using a four-way lander-orbiter relay tracking mode. Astrophysics and space science, vol.363, no.11, 236-.

    상세보기 crossref

  25. 10.1109/CISP.2011.6100268 

    crossref

  26. Tian, Ye, Yang, Fei, Gu, Jihai, Deng, Zongquan, Chen, Mengmeng, Yuan, Panpan, Li, Lifang. Performance Evaluation of a Coring Drill Based on Three Classical Lunar Simulant Conditions. IEEE access : practical research, open solutions, vol.7, 50993-51001.

    상세보기 crossref

  27. Yu, M., Cui, H., Tian, Y.. A new approach based on crater detection and matching for visual navigation in planetary landing. Advances in space research : the official journal of the Committee on Space Research (COSPAR), vol.53, no.12, 1810-1821.

    상세보기 crossref

  28. 10.2514/6.2016-5531 

    crossref

  29. 10.1109/ICICIP.2010.5565284 

    crossref

  30. Lunar Exploration Timeline nssdc 2020 

  31. Proc AIAA Guid Navigat Control Conf Pinpoint lunar landing navigation using crater detection and matching: Design and laboratory validation bilodeau 2012 5032 

  32. Introduction to AI Robotics murphy 2019 

  33. Yu, Yushan, Xu, Xuemiao, Hu, Xiaowei, Heng, Pheng-Ann. DALocNet: Improving Localization Accuracy for Domain Adaptive Object Detection. IEEE access : practical research, open solutions, vol.7, 63155-63163.

    상세보기 crossref

  34. 10.1109/CVPR.2010.5539812 

    crossref

  35. He, Ting, Liu, Ying, Xu, Chengyi, Zhou, Xiaolin, Hu, Zhongkang, Fan, Jianan. A Fully Convolutional Neural Network for Wood Defect Location and Identification. IEEE access : practical research, open solutions, vol.7, 123453-123462.

    상세보기 crossref

  36. Proc AIAA/AAS Astrodyn Spec Conf Exhib Landmark navigation and target characterization in a simulated Itokawa encounter gaskell 2005 1 

  37. 10.1109/3DV.2015.47 

    crossref

  38. Proc 25th Int Symp Space Flight Dyn (ISSFD) Optical measurements for Rosetta navigation near the comet de santayana 2015 1 

  39. Proc 18th Int Symp Space Flight Dyn Surface characterization and optical navigation at the Rosetta flyby of asteroid Lutetia de santayana 2014 1 

LOADING...

활용도 분석정보

상세보기
다운로드
내보내기

활용도 Top5 논문

해당 논문의 주제분야에서 활용도가 높은 상위 5개 콘텐츠를 보여줍니다.
더보기 버튼을 클릭하시면 더 많은 관련자료를 살펴볼 수 있습니다.

관련 콘텐츠

오픈액세스(OA) 유형

GOLD

오픈액세스 학술지에 출판된 논문

유발과제정보 저작권 관리 안내
섹션별 컨텐츠 바로가기

AI-Helper ※ AI-Helper는 오픈소스 모델을 사용합니다.

AI-Helper 아이콘
AI-Helper
안녕하세요, AI-Helper입니다. 좌측 "선택된 텍스트"에서 텍스트를 선택하여 요약, 번역, 용어설명을 실행하세요.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.

선택된 텍스트

맨위로