[1] ICAO. Technical provisions for mode S services and extended squitter:9871[S]. Montreal:ICAO, 2012. [2] RTCA DO-260B. Minimum operational performance standards for 1090 MHz extended squitter automatic dependent surveillance-broadcast (ADS-B) and traffic information services-broadcast (TIS-B):ED-102A[S]. Washington, D.C.:Radio Technical Commission for Aeronautics, 2009. [3] ZHANG J, LIU W, ZHU Y. Study of ADS-B data evaluation[J]. Chinese Journal of Aeronautics, 2011, 24(4):461-466. [4] BLOMENHOFER H, PAWLITZKI A, ROSENTHAL P, et al. Space-based automatic dependent surveillance broadcast (ADS-B) payload for in-orbit demonstration[C]//Advanced Satellite Multimedia Systems Conference. Piscataway, NJ:IEEE Computer Society, 2012:160-165. [5] DELOVSKI T, HAUER LC, BERHRENS J. ADS-B high altitude measurements in non-radar airspaces[J]. European Journal of Navigation, 2010, 8(2):1-28. [6] GUPTA O P. Global augmentation of ADS-B using Iridium NEXT hosted payloads[C]//Integrated Communications, Navigation and Surveillance Conference. Piscataway, NJ:IEEE Computer Society, 2011:1-15. [7] FRANCIS R, NOEL J M, VINCENT R. Orbital monitoring of automatic dependent surveillance-broadcast (ADS-B) signals for improved air traffic surveillance in remote and oceanic airspace[C]//Proceedings of the 62nd International Astronautical Congress. Paris:IAF, 2011:3111-3119. [8] ITU. Working document towards a preliminary draft new report itu-rm.[ADS-B]-Reception of automatic dependent surveillance broadcast via satellite and compatibility studies with incumbent systems in the frequency band 1088.7-1091.3 MHz:Annex 12 to Working Party 5B[R]. Budapest:International Telecommunication Union, 2015. [9] Flight Safety Foundation. Benfits analysis of space-based ADS-B[EB/OL]. (2016-06-29)[2017-11-11]. http://flightsafety.org/wpcontent/uploads/2016/10/ADS-B-report-June-2016-1.pdf. [10] FRANCIS R, VINCENT R, NOEL JM, et al. The flying laboratory for the observation of ADS-B signals[J/OL]. International Journal of Navigation and Observation, 2011[2017-11-15].http://dx.doi.org/10.1155/2011/973656. [11] DELOVSKI T, WERNER K, RAWLIK T, et al. ADS-B over satellite-the world's first ADS-B receiver in space[C]//Small Satellites Systems and Services Symposium. Berlin:DLR, 2014:1-16. [12] ALMINDE L, KAAS K, BISGAARD M, et al. GOMX-1 flight experience and air traffic monitoring results[C]//28th Annual AIAA/USU Conference on Small Satellites. Reston, VA:AIAA, 2014:1-7. [13] 陈利虎, 陈小前, 赵勇. 星载ADS-B接收系统及其应用[J]. 卫星应用, 2016(3):34-40. CHEN L H, CHEN X Q, ZHAO Y. Satellite-based ADS-B receiving system and application[J]. Satellite Application, 2016(3):34-40(in Chinese). [14] MARK R. Aireon launch begins new era for satellite-based aircraft surveillance[EB/OL]. New York:Flying Magazine, 2017. (2017-01-18)[2017-11-11]. https://www.flyingmag.com/aireon-launch-begins-new-era-for-satellite-based-aircraft-surveillance. [15] DIEGO M. Globalstar's space-based ADS-B[EB/OL]. (2014-09-19)[2017-11-11]. https://www.globalstar.com/en/index.php?cid=6300. [16] GARCIA M A, STAFFORD J, MINNIX J, et al. Aireon space based ADS-B performance model[C]//Integrated Communication, Navigation, and Surveillance Conference. Piscataway, NJ:IEEE Computer Society, 2015:C2-1-C2-10. [17] PRYT R V D, VINCENT R. A Simulation of signal collisions over the north atlantic for a spaceborne ADS-B receiver using aloha protocol[J]. Positioning, 2015, 6(3):23-31. [18] MARTIN J P, GARCIA C E, FOLONIER M F, et al. Satellite ADS-B message collision simulation[C]//VⅢ Conferencia Cientifica de Telecomunicaciones, 2015:1-6. [19] ABRAMSON N. The aloha system:Another alternative for computer communications[C]//Fall Joint Computer Conference. New York:ACM, 1970:281-285. [20] RTCA. Minimum operational performance standards for air traffic control radar beacon system/mode select (ATCRBS/Mode S) airborne equipment:DO-181D[S]. Washington, D.C.:Radio Technical Commission for Aeronautics, 2008. |