ADS-B technology is widely used in airspace surveillance. The surveillance quality of NUCP based on its messages has attracted much attention. It has good NUCP parameters but poor surveillance quality. To address this problem, the correlation between the ADS-B data items and the performance-based communication and monitoring are analyzed. On the basis of fully considering the correlation between the communication, navigation, and surveillance, as well as the wide area augmentation of GNSS satellite navigation, the performance estimation model of the ADS-B surveillance system is deduced and constructed. And then a reasonable simplification had been carried out. In the experimental test airspace, two ADS-B receivers with operational qualification from different manufacturers are installed and operated. Almost 200 million ADS-B messages are collected in three months. The statistical distribution of each information item in the message is analyzed and calculated in detail. These results are applied to the estimation model to evaluate and calculate the required surveillance performance of the two ADS-B stations. And the parameters of message items in the references are applied in the model to evaluate the required performance. The results show that when considering the statistical distribution of each message item and the supporting of wide area augmentation, the surveillance performance of ADS-B systems do not meet the requirement of 99.9%. In the absence of wide area augmentation and the related factors, the required performance of the system is further from the ADS-B surveillance performance specifications required by ICAO.
GONG Fengxun
,
LI Lihuan
,
MA Yanqiu
. Statistics and required surveillance performance of ADS-B message parameters[J]. ACTA AERONAUTICAET ASTRONAUTICA SINICA, 2020
, 41(4)
: 323378
-323378
.
DOI: 10.7527/S1000.6893.2019.23378
[1] AIRSERVICES Australia. Surveillance equipment man-dates[EB/OL].(2017-02-01)[2019-08-11]. Australia:Airservices Australia, 2017. http://www.airservicesaustralia.com/projects/ads-b/other-mandates-2014-2017/.
[2] BOB P. The Australian ADS-B proram[C]//Proceedings of CNS/ATM Conference, 2007:1-62.
[3] FAA. Public ADS-B performance report (PAPR) user's guide[S]. Washington, D.C.:Flight Standards Service, Aircraft Maintenance Division, Avionics Branch (AFS-360), 2018.
[4] ROBERT K M. Quality of reported NACP in surveillance and broadcast services systems[C]//28th AIAA IEEE Digital Avionics Systems Conference Proceedings,2009:6.E.31-6.E.38.
[5] ASMA T, NICHOLAS A, WILLIAM S. ADS-B message contents evaluation and breakdown of anomalies[C]//36th AIAA IEEE Digital Avionics Systems Conference, 2017:1-8.
[6] CAAS. ADS-B equipage analysis[EB/OL].(2014-08-14)[2019-08-11]. Singapore:Civil Aviation Authority of Singapore (CAAS), 2014. https://www.slideserv-e.com/sue/ads-b-equipageanalysis.
[7] SATISH C M, GANGHUAII W. Modeling ADS-B position and velocity errors for airborne merging and spacing in interval management application[EB/OL].(2010-09-01)[2019-08-11]. Massachusetts:The MITRE Corporation, 2010, https://www.mitre.org/publications/technical-papers/modeling-adsb-position-and-velocity-errors-for-airborne-merging-and-spacing-in-interval-management-application.
[8] MICHAEL R G, STANLEY R J, GREGORY L O, et al. ADS-B surveillance system performance with small UAS at low altitudes[EB/OL].(2017-01-01)[2019-08-11]. Massachusetts:The MITRE Corporation, 2017. https://www.mitre.org/publicationstechnicalpapers/modeling-adsb-position-and-velocity-errors-for-airborne-merging-and-spacing-in-interval-management-application.
[9] 沈笑云,唐鹏,张思远,等. ADS-B统计数据的位置导航不确定类别质量分析[J].航空学报, 2015, 36(9):3128-3136. SHEN X Y, TANG P, ZHANG S Y, et al. Quality analysis of navigation uncertain category for position based on ADS-B statistical data[J]. Acta Aeronautica et Astronautica Sinica, 2015, 36(9):3128-3136(in Chinese).
[10] RTCA. Minimum operational performance standards for 1090MHz extended squitter automatic dependent surveillance-broadcast (ADS-B) and traffic information service-broadcast (TIS-B):DO-260B[S]. Washington, D.C.:Radio Technical Commission for Aeronautics, 2009:50-240.
[11] ZHANG Q Z, ZHANG J, ZHU Y B, et al. Navigation accuracy category-position models and estimate position uncertainty calculations for TIS-B system[J]. Chinese Journal of Aeronautics,2009,22(4):419-425.
[12] ICAO. Performance-based communication and surveillance (PBCS) manual ed2:Doc9869[S]. Montréal:International Civil Aviation Organization (ICAO), 2017:39-59.
[13] WG-D. DO-260 study for ADS-B aviation rulemaking committee (ARC):DTRS57-03-R-20038[R]. Washington, D.C.:Avionics Transition Working Group Delta (WG-D) and Honeywell Technology Solutions Inc., 2008.
[14] DEBORAH L. FAA satellite navigation status[R]. Seattle:14th APEC Global Navigation Satellite System Implementation Group in 2010,2010.
[15] VERBRAAK T L, ELLERBROEK J, SUN J, et al. Large-scale ADS-B data and signal quality analysis[C]//12th USA/Europe Air Traffic Management R and D Seminar Conference. Reston, VA:AIAA, 2017.
[16] SUBRANMANIAN R, ROBERTO S. Communication, navigation and surveillance performance criteria for safety-critical avionic systems:SAE-2015-01-2544[C]//SAE 2015 AeroTech Congress and Exhibition. Seattle:Society of Automotive Engineers International, 2015:1-9.
[17] 张永进.复杂系统可靠性设计的若干关键问题研究[D].南京:南京航空航天大学, 2016:150-170. ZHANG Y J. Research on some key problems of reliability design for complex system[D]. Nanjing:Nanjing University of Aeronautics and Astronautics, 2016:150-170.
[18] 中国民航局.民用航空空中交通管制自动化系统,第2部分:技术要求:MH/T4029.2-2012[S].北京:中国民航出版社, 2012:10-11. CAAC. Civil aviation air traffic control automation system-Part 2:Technical requirement:MH/T4029.2-2012[S]. Beijing:China Civil Aviation Press, 2012:10-11.
[19] SMITH A, CASSELL R, BREEN T, et al. Methods to provide system-wide ADS-B back-up, validation and security[C]//25th AIAA IEEE Digital Avionics Systems Conference Proceedings. Reston, VA:AIAA, 2006:3D1-1-3D1-7.
[20] 唐鹏.基于ADS-B数据监视性能评估的技术研究[D].天津:中国民航大学, 2015:18-27. TANG P. Research on evaluation techniques of surveillance performance based on ADS-B data[D]. Tianjin:Civil Aviation University of China, 2015:23-50.
[21] SIMON T, STANISLAV P. Analysis of quality indicators in ADS-B messages[J]. Magazine of Aviation Development, 2017, 5(3):6-12.
[22] FAA. Current WAAS RNP 0.3 navigation service display[EB/OL].(2019-08-12)[2019-08-12]. New Jersey:William J Hughes Technical Center, 2019. https://www.nstb.tc.faa.gov/RT_NPACoverage.htm.
[23] ICAO. Manual on the secondary surveillance radar (SSR) systems (Third Edition):Doc9684[S]. Montréal:International Civil Aviation Organization, 2004:6-19-6-21.
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