Achieving operational two-way laser acquisition for OPALS payload on the International Space Station
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Reference6 articles.
1. Abrahamson, M., Sindiy, O., Oaida, B., Fregoso, S., Bowles-Martinez, J., Kokorowski, M., Wilkerson, W., and Konyha, A., “OPALS: Mission System Operations Architecture for an Optical Communications Demonstration on the ISS,” SpaceOps 2014 13th International Conference on Space Operations, Pasadena, CA, 5-9 May 2014. AIAA- 2014-1627.
2. Oaida, B.V.; Kokorowski, M.; Erkmen, B.I.; Andrews, K.S.; Wu, W.; Wilkerson, M., “Impact of pointing performance on the optical downlink for the Optical PAyload for Lasercomm Science (OPALS) system” Proc. ICSOS 2014, S3-1, Kobe, Japan, May 7-9 (2014).
3. Oaida, B.V.; Wu, W.; Erkmen, B.I.; Biswas, A.; Andrews, K.S.; Kokorowski, M.; Wilkerson, M., “Optical link design and validation testing of the Optical Payload for Lasercomm Science (OPALS) system,” Proc. SPIE 8971, Free-Space Laser Communication and Atmospheric Propagation XXVI, 897131 (February 2014).
4. Oaida, B.V.; Abrahamson, M.J.; Witoff, R.J.; Martinez, J.N.B.; Zayas, D.A., “OPALS: An optical communications technology demonstration from the International Space Station,” Aerospace Conference, 2013 IEEE, vol., no., pp.1, 20, 2-9 March 2013.
5. ‘Hello World!’ NASA Beams Video from Space Station via Laser;Nimon,2014
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