I.A. Tsikin – Dr.Sc.(Eng.), Professor, Peter The Great St. Petersburg Polytechnic University

E-mail: tsikin@mail.spbstu.ru

E.S. Poklonskaya – Assistant, Peter The Great St. Petersburg Polytechnic University E-mail: catherine091@mail.ru

The Secondary Surveillance Radar System (SSRS) distance control method in conditions of the Secondary Surveillance Radar signals absence on the Remote Analysis Station (RAS) receiver is considered. The allowable values of errors caused by the different sources are determined. The specified error values provide the Distance Analysis System (DAS) accuracy the same as the controlled SSRS accuracy. The DAS accuracy for the different RAS positions dependent on the aircraft of interest and the reference aircraft locations is considered in cases of different error values and with the presence and absence of the SSR mode information at DAS. The RAS position and working mode provided the highest control system accuracy is determined.

1. Skolnik M. Radar Handbook. Third Edition. The McGraw-Hill Companie. 2008. 1350 p.
2. Rukovodstvo po aviaczionnomu nablyudeniyu. Mezhdunarodnaya organizacziya grazhdanskoj aviaczii. 2010.
3. Zhang J., Liu W., Zhu Y. Study of ADS-B Data Evaluation. China Measurement & Test. 01.2013.
4. Czikin I.A., Poklonskaya E.S. Obrabotka signalov sistemy' vtorichnoj radiolokaczii na udalennom punkte kontrolya // Nauchno-texnich. vedomosti SPbGPU. Informatika. Telekommunikaczii. Upravlenie. 2017. T10. № 2. S. 58−74.
5. Otsuyama T., Honda J., Shiomi K., Minorikawa G., Hamanaka Y. Performance Evaluation of Passive Secondary Surveillance Radar for Small Aircraft Surveillance // European Radar Conference (EuRAD). 2015. P. 505−508.
6. Shiomi K., Senoguchi A., Aoyama S. Development of Mobile Passive Secondary Surveillance Radar // 28th International Congress of the Aeronautical Sciences. 2012.
7. Passive ATCRBS using signals of remote SSR: pat. № US4115771; US 05/797,675; published 19.09.1978.
8. Passive SSR system: pat. № US6344820; US 09/609,056; published 5.12.2002.
9. Stacey D. Aeronautical and radio communication systems and network. Chichester.: John Wiley & Sons Ltd. 2008. 350 p.
10. Zagrebin I.V., Romanov A.V. Modernizacziya e'lektroprivoda vrashheniya antenny' vtorichnogo radiolokatora «Koren'-AS» // Trudy' regional'noj studencheskoj nauch.-texn. konf. «Prikladny'e zadachi e'lektromexaniki, e'nergetiki, e'lektroniki». 2004. S. 21−24.
11. Aver'yanov V.Ya. Raznesenny'e radiolokaczionny'e stanczii i sistemy'. Minsk.: Texnika. 1978. 148 s.
12. Willis N.J., Griffiths H.D. Advances in Bistatic Radar. SciTech Publishing. Inc. 2007. P. 491.
13. Aviaczionnaya e'lektrosvyaz'. Tom IV. Sistemy' nablyudeniya i preduprezhdeniya stolknovenij: Prilozhenie 10 k Konvenczii o Mezhdunar. grazhdanskoj aviaczii. Mezhdunar. standarty' i Rekomenduemaya praktika. Mezhdunar. organizacziya grazhdanskoj aviaczii. 07.2007.
14. Ry'tov S.M. Vvedenie v statisticheskuyu radiofiziku. Ch. 1. M.: Nauka. 1976. 494 s.
15. Klovskij D.D. Peredacha diskretny'x soobshhenij po radiokanalam. Izd. 2-e, pererab. i dop. M.: Radio i svyaz'. 1982. 304 s.
16. Honda J., Otsyuama T. Estimation of Target Detection Rate in Aircraft Surveillance System // International Conference on NetworkBased Information Systems. 2013. P. 561−565.
17. Fränken D., Hüpper A. Aircraft Positioning with Secondary Surveillance Radar and Time of Arrival Measurements // 14th International Radar Symposium (IRS). 2013.
18. Kim E., Sivits K. Blended secondary surveillance radar solutions to improve air traffic surveillance // Aerospace Science and Technology. 2015. V. 45. P. 203−208.
19. Wang Y., Bao Q., Wamg D. An Experimental Study of Passive Bistatic Radar Using Uncooperative Radar as a Transmitter // IEEE Geoscience and Remote Sensing Letters. 2015. V. 12. № 9. P. 1868−1872.
20. Wang D., Bao Q., Tian R., Chen Z. Bistatic weak target detection method using non-cooperative air surveillance radar // Journal of Systems Engineering and Electronics. 2015. V. 26. № 5. P. 954−963.
21. Malanowski M. Detection and parameter estimation of manoeuvring targets with passive bistatic radar // IET Radar, Sonar & Navigation. 2012.V. 6. № 8. P. 739−745.