Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 32799
Study on the Self-Location Estimate by the Evolutional Triangle Similarity Matching Using Artificial Bee Colony Algorithm
Authors: Yuji Kageyama, Shin Nagata, Tatsuya Takino, Izuru Nomura, Hiroyuki Kamata
Abstract:
In previous study, technique to estimate a self-location by using a lunar image is proposed.We consider the improvement of the conventional method in consideration of FPGA implementationin this paper. Specifically, we introduce Artificial Bee Colony algorithm for reduction of search time.In addition, we use fixed point arithmetic to enable high-speed operation on FPGA.
Keywords: SLIM, Artificial Bee Colony Algorithm, Location Estimate.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1338066
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1920References:
[1] S. Yoshikawa, M. Kunugi, R. Yasumitsu, S. Sawai, S. Fukuda, T. Mizuno, K. Nakaya, Y. Fujii, and N. Takatsuka, “Conceptual Study on the Guidance Navigation and Control System of the Smart Landing for Investigating Moon(SLIM),” Proceedings of Global Lunar Conference 2010, paper ID 5644, 2010.
[2] Rena Okamura, Tomohiro Harada, RieUsami, Keiki Takadama, Hiroyuki Kamata, Shinji Ozawa, Seisuke Fukuda, and SyujiroSawai, “Estimate Location by the Evolutional Triangle Similarity Matchin at SLIM,” Proceedings of the 55th Space Sciences and Technology Conference, 2011.
[3] Tomohiro Harada, RieUsami, Keiki Takadama, Hiroyuki Kamata, Shinji Ozawa, Seisuke Fukuda, and SyujiroSawai, “Computational Time Reduction of Evolutionary Spacecraft Location Estimation toward Smart Lander for Investigating Moon,” The 11th International Symposium on Artificial Intelligence, Robotics and Automation in Space (i-SAIRAS2012), 2012.
[4] Tomohiro Harada, Yuta Sugimoto, Keiki Takadama, Hiroyuki Kamata, Shinji Ozawa, Seisuke Fukuda, and SyujiroSawai, “Spacecraft Location Estimation in SLIM mission by Crater Detection from Actual Shot Image – Evaluating Spacecraft Location Estimation Algorithm in terms of Robustness to Crater False Detection,” Proceedings of the 57th Space Sciences and Technology Conference, 2013.
[5] JunyaIrie, Shin Nagata, Shohei Honda, Hiroyuki Kamata, Satoshi Kanazawa, Keiki Takadama,Shinji Ozawa, Koji Nakaya, Seisuke Fukuda, and SyujiroSawai,“Study on Improvement of Crater Detection using Principal Component Analysis,” Proceedings of the 57th Space Sciences and Technology Conference, 2013.
[6] Tatsuya T, Shin N, Junya I, and Hiroyuki K, “Crater Detection using Principle Component Analysis and its Implement in Detection Accuracy,” Workshop on Circuits and Systems 27, pp. 398-403, 2014.