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References
-
-
1)
-
1. A World Health Organization: ‘Global status on road safety 2015’, 2015.
-
2)
-
2. European Transport Safety Council: ‘Road safety priorities for the EU in 2016’, .
-
3)
-
3. Koltz, M., Rohling, H.: ‘A 24 GHz short range radar network for automotive applications’. Proc. 2001 CIE Int. Conf. Radar (Cat No. 01TH8559), Beijing, China, 2001.
-
4)
-
4. Wenger, J.: ‘Automotive mm-wave radar: status and trends in system design and technology’. IEEE Colloquium on Automotive Radar and Navigation Techniques, , London, UK, 1998.
-
5)
-
5. Yang, Y., Mandehgar, M., Grischkowsky, D.R.: ‘Broadband THz signals propagate through dense fog’, IEEE Photonics Technol. Lett., 2015, 27, (4), pp. 383–386.
-
6)
-
6. Norouzian, F., Du, R., Hoare, E., et al: ‘Low-THz transmission through water-containing contaminants on antenna radome’, IEEE Trans. Terahertz Sci. Technol., 2018, 8, (1), pp. 63–75.
-
7)
-
7. Jasteh, D., Hoare, E.G., Cherniakov, M., et al: ‘Experimental low-terahertz radar image analysis for automotive terrain sensing’, IEEE Geosci. Remote Sens. Lett., 2016, 13, (4), pp. 490–494.
-
8)
-
8. Statnikov, K., Öjefors, G.J., Chevalier, P., et al: ‘A 0.32 THz E. FMCW radar system based on low-cost lens-integrated SiGe HBT front-ends’. 2013 Proceedings of the ESSCIRC (ESSCIRC), Bucharest, 2013.
-
9)
-
9. Yamada, N., Tanaka, Y., Nishikawa, K.: ‘Radar cross section for pedestrian in 76 GHz band’. 2005 European Microwave Conf., Paris, France, October 2005, . 2.
-
10)
-
10. Fortuny-Guasch, J., Chareau, J.: ‘Radar cross section measurements of pedestrian dummies and humans in the 24/77 GHz frequency bands’. , European Commission, 2013.
-
11)
-
11. Vertal, P., Steffan, H.: ‘Evaluation of the effectiveness of Volvo's pedestrian detection system based on selected real-life fatal pedestrian accidents’, , 2016.
-
12)
-
12. CST MICROWAVE STUDIO® (CST® MWS®), 2015. .
-
13)
-
13. Gandhi, O.P., Riazi, A.: ‘Absorption of millimeter waves by human beings and its biological implications’, IEEE Trans. Microw. Theory Tech., 1986, 34, (2), pp. 228–235.
-
14)
-
14. Elva-1 (Millimeter Wave Division). .
-
15)
-
15. Federal Communications Commission, USA, , 2017.
-
16)
-
17)
-
17. Norouzian, F., Du, R., Gashinova, M., et al: ‘Monostatic and bistatic reflectivity measurements of radar absorbers at low-THz frequency’. 2016 European Radar Conf. (EuRAD), London, UK, 2016.
-
18)
-
18. Knott, E.F.: ‘Radar cross section measurements’ (Springer, New York, USA, 1993, 1st edn.).
-
19)
-
19. Willetts, B., Gashinova, M., Stove, A., et al: ‘Low-THz rough surface imaging’. 2016 European Radar Conference (EuRAD), London, 2016.
-
20)
-
20. Barton, D.K.: ‘Modern radar systems analysis’ (Artech House, London, UK, 1988), .
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