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Principles of the utilization of polarization-invariant parameters for classification and recognition of complex radar objects

Published online by Cambridge University Press:  17 April 2012

Piet van Genderen ,
Victor N. Tatarinov  and
Sergey V. Tatarinov
Piet van Genderen*
Affiliation:
Faculty of Electrical Engineering, Mathematics and Computer Science, Delft University of Technology/IRCTR, Mekelweg 4, Delft, The Netherlands. Phone: +31152781034
Victor N. Tatarinov
Affiliation:
Tomsk University of Control Systems and Radioelectronics, 40 Lenin Avenue, 634050 Tomsk, Russian Federation
Sergey V. Tatarinov
Affiliation:
Tomsk University of Control Systems and Radioelectronics, 40 Lenin Avenue, 634050 Tomsk, Russian Federation
*
Corresponding author P. van Genderen Email: P.vanGenderen@tudelft.nl
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Abstract

The paper presents the first attempt to develop parameters that are invariant to polarization, aimed at classification and recognition of complex radar objects. Both the simplest (two-point) model and multipoint models of a complex object are analyzed using the so-called emergence principle and a generalization of the interference laws. The polarization invariant parameters of scattered fields and their statistical parameters, including autocorrelation functions and space spectra, are found. The experimental validation of the analysis results is presented.

Keywords

Emergence principleGeneralized interference lawsComplex radar objectsFlight safetyStokes parametersAngular distributionAutocorrelation functionSpace spectra
Type
Research Papers
Information
International Journal of Microwave and Wireless Technologies , Volume 4 , Special Issue 2: Special issue on Surveillance Systems for Air Navigation Services , April 2012 , pp. 171 - 179
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2012

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References

[1]Tatarinov, V.N.; Tatarinov, S.V.; van Genderen, P.: Principles of utilization of polarization invariant parameters for classification and recognition of distributed radar objects part I. Simplest model of a distributed object, in Proc. Int. Conf. ESAV'11, Italy, Capri, September 2011, 7983.Google Scholar
[2]Tatarinov, V.N.; Tatarinov, S.V.; van Genderen, P.: Principles of utilization of polarization invariant parameters for classification and recognition of distributed radar objects. Part II. Multipoint model and correlation theory, In Proc. Int. Conf. ESAV'11, Italy, Capri, September 2011, 8488.Google Scholar
[3]Kozlov, A.I.; Tatarinov, V.N.; Tatarinov, S.V.; Krivin, N.N.: Formation of polarization speckle parameters due to interference at coherent scattering. Scientific Bulletin of Moscow State University of Civil Aviation, Moscow, 2011 (no. 171). pp. 4449 (in Russian).Google Scholar
[4]Tatarinov, V.N.; Tatarinov, S.V.: A Statistical Theory of the Electromagnetic Field Polarization Parameters at the Scattering by Distributed Radar Objects. InTechOpen, ISBN 978-953-307-275-3, March 2011.CrossRefGoogle Scholar
[5]Peregudov, F.I.; Tarasenko, F.P.: The principles of systems analysis. Tomsk, 2001.Google Scholar
[6]Tatarinov, V.N.; Tatarinov, S.V.; Ligthart, L.P.: An Introduction to Radar Signals Polarization Modern Theory, V.1, Tomsk State Univ. Publ. House, Tomsk, Russia, 2006.Google Scholar
[7]Tatarinov, V.N.; Tatarinov, S.V.: A generalization of Fresnel–Arago interference laws, in Proc. Int. Conf. SoftCOM ‘09, Split-Hwar, Croatia, 2009.Google Scholar
[8]Tatarinov, V.N.; Tatarinov, S.V.; van Genderen, P.; Tran, D.; Usov, P.; Zijderveld, J.: The Reports IRCTR-S-028-03 (2003) and IRCTR-S-029-04 (2004).Google Scholar
[9]Boerner, W.: Basic Concepts In Radar Polarimetry, Lecture notes at http://earth.esa.int/landtraining07/polsar_basic_concepts.pdf (January 2012).Google Scholar
[10]Tatarinov, V.N.; Tatarinov, S.V.; Ligthart, L.P.: The use of the equivalence principle “on the average”, in Proc. MIKON’2000, Wrozlaw, Poland, Vol. 2, 217.Google Scholar
[11]Stratton, J.A.; Chu, L.J.: Diffraction theory of electromagnetic waves. Phys. Rev., 56 (1939), 99107.CrossRefGoogle Scholar