Comparisons between Doppler signal orthogonal transformations
Authors: B. Mirić, E. Dolićanin
Keywords: Doppler signal; orthogonal transformation; short time spectrum; long term average spectrum; vehicle spectral characteristic
Abstract:
This paper presents expansion and the behavior of the radar Doppler signals. As the experimental basis for this research work measurement results of the Federal Physical Engineering Bureau, Germany are used. The exposed problem is analyzed from the metrological and the identification point of view, taking the vehicle as the small velocity target under the scope. The comparative analysis of the Doppler signal orthogonal transformations is also presented, comparing the spectrums of different vehicles moving in the electromagnetic field of the Doppler radar with proposed velocities, under strictly defined circumstances. The short time spectrums are related to the photographic picture series taking the optical lenses with the same space angle as the Doppler radar main lob space angle.
References:
[1] Allen, J.B., Rabiner, L.R. (1977) A unified approach to short-time Fourier analysis and synthesis. Proceedings of the IEEE, 65(11): 1558-1564
[2] Andersen, J.B. (1982) Doppler Spectrum of Single Automobiles. IEEE Transaction on vehicular Technology, 31, No. 1, February, , Vol. VT
[3] Chen, C.V., Ling, H. (2002) Time frequency for radar imaging and signal analysis. Arted House
[4] Hayes, M.H. (1996) Statistical digital signal processing and modeling. New York: John Wiley & Sons
[5] Ishii, K. (1970) Analysis of Target-Speed Determination with Doppler Radar. IEEE Transactions on Instrumentation and Measurement, 19(2): 86-91
[6] Marković, A. (1986) Zeitenwicklung der Verkehrs Dopplerradar-signale: Ein Weg zur Zeilidentifikation?. PTB Berichte MA-3, February
[7] Mirić, B. (1992) One approach to signal identification of traffic Doppler radars. Serbia: University of Prishtina, Department of Electrical Engineering, PhD thesis
[8] Omeljcenko, V.A. (1986) Fundamentals of the spectral theory signal recognition. Harkov: High School
[9] Oppenheim, A.V., Schafer, R.W. (1975) Digital signal processing. Englewood Cliffs: Prentice Hall
[10] Pauk, S. (2006) Use of long-term average spectrum for automatic speaker recognition. Joensuu: Department of Computer Science, Master Th
[11] Shije, R., Xin, S., Wenjun, W., Zengtao, L. (2009) Application of time-frequency analysis to doppler signal. u: International Forum on Computer Science-Technology and Application, December, str. 155-158