A solution for the over-the-horizon-radar simulator

Bojan Džolić; Mladen Veinović; Vladimir Orlić; Nikola Lekić; Nemanja Grbić

doi:10.5937/vojtehg68-26980

Bojan Džolić Institut Vlatakom, Beograd, Republika Srbija; Univerzitet Singidunum, Katedra za elektrotehniku i računarstvo, Beograd, Republika Srbija https://orcid.org/0000-0002-2169-2320
Mladen Veinović Univerzitet Singidunum, Beograd, Republika Srbija https://orcid.org/0000-0001-6136-1895
Vladimir Orlić Institut Vlatakom, Beograd, Republika Srbija https://orcid.org/0000-0002-5153-5115
Nikola Lekić Institut Vlatakom, Beograd, Republika Srbija https://orcid.org/0000-0001-7543-3319
Nemanja Grbić Institut Vlatakom, Beograd, Republika Srbija https://orcid.org/0000-0002-0540-3787

DOI: https://doi.org/10.5937/vojtehg68-26980

Ključne reči: izahorizontski radar, radarska refleksna površina, ekskluzivna ekonomska zona, radarski simulator

Sažetak

Uvod/cilj: Simulator izahorizontskog radara (IHR), koji je predstavljen u ovom radu, razvijen je i korišćen u praksi, sa ciljem da oponaša okruženje radarskog signala, ali i da optimizira parametre radara u stvarnoj primeni, kao što su: zračena snaga, pojačanje antene, gubitak puta, radarska refleksna površina, spoljne smetnje i šum.

Metode: U radu se koristi metodologija matematičkog modeliranja i simulacija.

Rezultati: Na osnovu obavljene analize, izlazni podaci iz IHR simulatora predstavljeni su i razmatrani.

Zaključak: Primena opisanog simulatora IHR omogućava automatizovanu procenu mogućnosti upotrebe radara na potencijalnim lokacijama, dok rezultati simulacije pokazuju visoko slaganje sa realnim podacima.

Reference

Barrick, D.E. 1970. Theory of Ground-Wave Propagation Across A Rough Sea at Decameter Wavelengths. Columbus, Ohio: Battelle Memorial Institute [online]. Available at: https://apps.dtic.mil/dtic/tr/fulltext/u2/865840.pdf [Accessed: 7 June 2020].

Dzolic, B., Tosic, N., Lekic, N., Orlic, V & Veinovic, M. 2019a. Transmitter’s internal noise performance as limiting factor inHigh-Frequency Over-the-Horizon radars. In: 2019 14th International Conference on Advanced Technologies, Systems and Services in Telecommunications (TELSIKS), Niš, Serbia, October 23-25. Available at: https://doi.org/10.1109/TELSIKS46999.2019.9002333.

Džolić, B., Tošić, N., Orlić, V. & Veinović, M. 2019b. Visualisation tools for design of Maritime Surveillance System. In: Sinteza 2019 - International Scientific Conference on Information Technology and Data Related Research, Belgrade, Serbia, April 20th. Available at: https://doi.org/10.15308/Sinteza-2019-546-552.

Dzvonkovskaya, A. & Rohling, H. 2010. Cargo ship RCS estimation based on HF radar measurements. In: 11th International Radar Symposium (IRS), Vilnius, Lithuania, June 6-18 [online]. Available at: https://ieeexplore.ieee.org/document/5547445 [Accessed: 7 June 2020].

Fabrizio, G. 2013. High Frequency Over-the-Horizon Radar: Fundamental Principles, Signal Processing, and Practical Applications. New York: McGraw- Hill. ISBN: 9780071621274.

Girault, B., Narayanan, S., Ortega, A., Gonçalves, P. & Fleury, E. 2017. Grasp: A Matlab toolbox for graph signal processing. In: 2017 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), New Orleans, USA, March 5-9. Available at: https://doi.org/10.1109/ICASSP.2017.8005300.

Grbić, N., Petrović, P., Stevanović, N., Džolić, B., Nikolić, D. & Lekić, N. 2018. Simulacija radarske površine brodova u kratkotalasnom frekventnom opsegu. In: 62nd ETRAN Conference, Palić, Serbia, pp.126-129, June 11-14 (In Serbian) [online]. Available at: https://www.etran.rs/common/Zbornik%20ETRAN%20IC%20ETRAN-18-final.pdf [Accessed: 7 June 2020].

Hand, G.R. 2017. Combination of Radio Noise modification [online]. Available at: http://www.greg-hand.com/noise/ [Accessed: 15 April 2020].

-ITU (International Telecommunication Union). 1992. Recommendation ITU-R P.527-3. Electrical characteristic of the surface of the earth [online]. Available at: https://www.itu.int/dms_pubrec/itu-r/rec/p/R-REC-P.527-3-199203-S!!PDF-E.pdf [Accessed: 7 June 2020].

-ITU (International Telecommunication Union). 2007. Recommendation P.368-9 (02/07) Ground-wave propagation curves for frequencies between 10 kHz and 30 MHz [online]. Available at: https://www.itu.int/rec/R-REC-P.368-9-200702-I/en [Accessed: 7 June 2020].

-ITU (International Telecommunication Union). 2013. Recommendation P.372-11 (09/2013) Radio noise [online]. Available at: https://www.itu.int/rec/R-REC-P.372-11-201309-S/en [Accessed: 7 June 2020].

-ITU (International Telecommunication Union). 2020. Software, Data and Validation examples for ionospheric and tropospheric radio wave propagation and radio noise, Ground-wave propagation (GRWAVE) ver.9.2, Software [online]. Available at: https://www.itu.int/en/ITU-R/study-groups/rsg3/Pages/iono-tropo-spheric.aspx [Accessed: 15 April 2020].

Kolundzija, B.M., Ognjanovic, J.S.& Sarkar T.K. 2005. WIPL-D Microwave: Software and User's Manual: Circuit and 3D EM Simulation for RF and Microwave Applications. Norwood, Massachusetts: Artech House. ISBN: 978-1580539654.

Nikolić, D., Džolić. B., Tošić, N., Lekić, N., Orlić. V. & Todorović, B. 2016a. HFSW Radar Design: Tactical, Technological and Environmental Challenges. In: OTEH 7th International Scientific Conference on Defensive Technologies, Belgrade, Serbia, October 6-7.

Nikolic, D., Popovic, Z., Borenovic, M., Stojkovic, N., Orlic, V., Dzvonkovskaya, A. & Todorovic, B. 2016b. Multi-Radar Multi-Target Tracking Algorithm for Maritime Surveillance at OTHR Distances. In: 17th International Radar Symposium (IRS), Krakow, Poland, May 11-15.

Nikolic, D., Stojkovic, N. & Lekic, N. 2018. Maritime Over the Horizon Sensor Integration: HFSWR and AIS Data Integration Algorithm. Sensors, 18 (4), 1147. Available at: https://doi.org/10.3390/s18041147.

Petrovic, R., Simic, D., Drajic, D., Cica, Z., Nikolic, D. & Peric, M. 2020. Designing Laboratory for IoT Communication Infrastructure Environment for Remote Maritime Surveillance in Equatorial Areas Based on the Gulf of Guinea Field Experiences. Sensors, 20(5), 1349. Available at: https://doi.org/10.3390/s20051349

Sevgi, L. & Ponsford, A.M. 1999. An HF Radar Base Integrated Maritime Surveillance System. In: 3rd International Multiconference IMACS/IEEE CSCC'99, Athens (Greece), pp.5801-5806, July 4-8 [online]. Available at: http://www.wseas.us/e-library/conferences/athens1999/Papers/580.pdf [Accessed: 7 June 2020].

Skolnik, M.I. 1974. An empirical formula for the radar cross section of the ships at grazing incidence. IEEE Transactions on Aerospace and Electronic Systems, AES-10(2), pp.292-292. Available at: https://doi.org/10.1109/TAES.1974.307935.

Skolnik, M.I. 1990. Radar Handbook, Second Edition. New York: McGraw-Hill. ISBN: 0-07-057913-X.

Spaulding, A.D. & Washburn, J.S., 1985. Atmospheric Radio Noise: Worldwide Levels and Other Characteristics. NTIA Report 85-173. U.S. Department of commerce.

Stojković, N., Nikolić, D., Džolić, B., Tošić, N., Orlić, V., Lekić, N. & Todorović, B. 2016. An Implementation of Tracking Algorithm for Over-The-Horizon Surface Wave Radar. In: 24th Telecommunications Forum (TELFOR), Belgrade, Serbia, November 22–23.

Tošić, N., Džolić, B., Nikolić, D., Lekić, N. & Todorović, B. 2016. Izazovi pri projektovanju HFSW radara. In: 60th ETRAN Conference, Zlatibor, Serbia, June 13-16 (in Serbian).

-United Nations, 2011. Law of the Sea, Part V—Exclusive Economic Zone [online]. Available at: https://www.un.org/depts/los/convention_agreements/texts/unclos/part5.htm [Accessed: 7 June 2020].

-Vlatacom Institute. 2018. Over the horizon radar: vOTHR, Product datasheet [online]. Available at: https://www.vlatacominstitute.com/over-the-horizon-radar [Accessed: 7 June 2020].

Wilson, H. & Leong, H. 2003. An Estimation and Verification of Vessel Radar-Cross-Section for HF Surface Wave Radar. In: 2003 Proceedings of the International Conference on Radar (IEEE Cat. No.03EX695), Adelaide, Australia, September 3-5. Available at: https://doi.org/10.1109/RADAR.2003.1278830.

Jedno rešenje simulatora izahorizontskog radara

Sažetak

Reference

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