Crater Detection Robust to Illumination and Shape Changes using Convolutional Neural Network
Author:
Affiliation:
1. Research and Development Directorate, Japan Aerospace Exploration Agency
2. Department of System Design Engineering, Keio University
3. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency
Publisher
Japan Society for Aeronautical and Space Sciences
Subject
Space and Planetary Science,Aerospace Engineering
Link
https://www.jstage.jst.go.jp/article/tjsass/64/4/64_T-19-52/_pdf
Reference18 articles.
1. 1) Kariya, K., Ishida, T., Sawai, S., Kinoshita, T., Kajihara, K., Iwasa, O., and Fukuda, S.: Position Estimation Using Crater-based Linear Features for Pinpoint Lunar Landing, Aerospace Tech. Jpn. JSASS, 17 (2018), pp. 79–87 (in Japanese).
2. 2) Ishii, H., Maruta, A., Uwano, F., Tatsumi, T., Umenai, Y., Takadama, K., Harada, T., Kamata, H., Ishida, T., Fukuda, S., Sawai, S., and Sakai, S.: SLIM Spacecraft Location Estimation by Crater Matching Based on Similar Triangles and Its Improvement, Aerospace Tech. Jpn. JSASS, 17 (2018), pp. 69–78 (in Japanese).
3. 3) Mcgee, T. G., Criss, T. B., Rosendall, P., Hill, A., Shyong, W., Mehta, N., Reed, C., Chavers, G., Hannan, M. R., and Epp, C.: APLNav: Development Status of an Onboard Passive Optical Terrain Relative Navigation System, AIAA Guidance, Navigation, and Control Conference, Florida, U.S.A., AIAA 2015-0853, 2015.
4. 4) Delaune, J., Le Besnerais, G., Voirin, T., Farges, J. L., and Bourdarias, C.: Visual-inertial Navigation for Pinpoint Planetary Landing using Scale-based Landmark Matching, Rob. Auton. Syst., 78 (2016), pp. 63–82.
5. 5) Theil, S., Ammann, N., Andert, F., Franz, T., Kruger, H., Lehner, H., Lingenauber, M., Ludtke, D., Maass, B., Paproth, C., and Wohlfeil, J.: ATON (Autonomous Terrain-based Optical Navigation) for Exploration Missions: Recent Flight Test Results, CEAS Sp. J., 10 (2018), pp. 325–341.
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