![]() 3rd international Asia-Pacific Conference on Synthetic Aperture Radar (APSAR), Seoul, South Korea, pp 1–4 Lukin K, Vyplavin P, Zemlyaniy O, Palamarchuk V (2011) L-band stepped frequency noise SAR on the basis of arbitrary waveform generator. In: Proceedings of the 16th international radar symposium, Dresden, Germany, 24–26 June 2015, vol 2, pp 777–782 Lukin S, Zemlyaniy O, Lukin K (2015) FPGA based random waveform generators for noise radars. Īlejos AV, Sánchez MG, Cuiñas I, Dawood M (2010) Wideband noise radar based in phase coded sequences. Massaro D, Ardoino R, Grazzini M (2018) An efficient processing architecture for range profiling using noise radar technology. 25th European microwave conference, pp 506–507 Lukin K (1995) Noise radar with correlation receiver as the basis of car collision avoidance system. IET Proc Radar Sonar Navig 2:233–243īerizzi F, Martorella M, Giusti E (2016) Radar imaging for maritime observation. Lukin KA et al (2008) Ka-band bistaic ground-based noise waveform SAR for short-range applications. IEEE Trans Aerosp Electron Syst 46(3):1214–1225 Tarchi D, Lukin K, Fortuny-Guasch J et al (2010) SAR imaging with noise radar. 2017 18th International Radar Symposium (IRS), Prague, pp 1–7. Lukin KA, Zemlyaniy OV, Tatyanko DN, Lukin S, Pascazio V (2017) Noise radar design based on FPGA technology: on-board digital waveform generation and real-time correlation processing. Lukin K, Moreira J, Vyplavin P, Lukin S, Zemlyaniy O (2013) FPGA based software defined noise radar. Kulpa K (2013) Signal processing in noise waveform radar. Kulpa K, Lukin K, Miceli W, Thayaparan T (2008) Editorial. Lukin K (2005) Noise radar technology: the principles and short overview. Radiophysika i Electronica 4(3):105–111, in Russian) (Original Lukin KA (1999) Shumovaya radarnaya tekhnologiya. In particular, the paper will focus on how the noise waveforms will be generated and what radar mode will be used to achieve the desired objectives. The present paper aims at showing the idea behind the proposed solution and the main advantages that border authorities can benefit of. A system demonstration to assess the performance of the proposed solutions will be performed at the end of the third year of the project. A technological demonstrator composed of two noise imaging radars in a network will be designed and developed. Particularly, the multistatic and MIMO imaging capabilities of the system allow the target to be observed at different viewing angles providing full shape RCS and imaging and consequently better classification and recognition performance. The system will be also designed to achieve low RCS and high resolution range profile measurements. The main NATO military benefits of the NORMA system consist of the capability of the proposed solution to have an all-weather all-day 24-h covert and LPI surveillance system with high detection, tracking and imaging performance. The NORMA project aims at designing and analyzing a imaging noise radar working in network configuration for covert, high spatial resolution air and maritime border surveillance.
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