THE TARGET DETECTION ON THE SEA SURFACE BASED ON STANDARD DEVIATION OF THE MAXIMUM EIGENVALUE OF THE POLARIZATION COVARIANCE MATRIX

  • T. Pham Military Technical Academia
Ключевые слова: море

Аннотация

This paper proposes a novel method to detect small sea targets, using polarimetric radar. The standard deviation of maximum eigenvalue of the polarization covariance matrix is ultilized for the detection. In order to evaluate the new algorithm in practical applications, the real data collected from polarimetric IPIX radar at MC Master University is tested with the new algorithm, and the result is displayed on the radar screen. The results of this method is also compared with those of the DoP and SP-GLR methods. Initial results show that the novel method significantly improves the detectability of small sea targets on the sea surface. 

Биография автора

T. Pham , Military Technical Academia

PhD, MA

Литература

[1] Novak L. M. en Sechtin M. B., „Studies of target detection algorithms that use polarimetric radar data,” IEEE Trans. on Aerosp. Electron. Syst, vol. 25, nr. 2, Mar. 1989., pp. 150-165, 1989.
[2] Park H. R, Li J en Wang H, „Polarization-spacetime domain generalized likelihood ratio detection of radar targets,” Signal Processing, vol. 41, p. 153—164, 1995.
[3] Pastina D, Lombardo P en Bucciarelli T, „Adaptive polarimetric target detection with coherent radar. Part I: Detection against Gaussian background,” IEEE Trans. on Aerosp. Electron. Syst, Vols. %1 van %237, No. 4, pp. 1194-1206, 2001.
[4] Hurtado. M en Nehoira. A, „Polarimetric detection of target in heavy inhomogenous clutter,” IEEE Transactions on Signal Processing, vol. 56, nr. 4, pp. 1349-1361, 2008.
[5] Kelly E. J, „An adaptive detection algorithm,” IEEE Transactions on Aerospace and Electronic Systems, AES-22, vol. 1, p. 115—127, 1986.
[6] Park. H en Wang. H, „Adaptive polarizationspace-time domain radar target detection in inhomogeneous clutter enviroments,” Inst. Elect. Eng. Proc. Radar Sonar Navig., vol. 153, pp. 3543, 2006.
[7] Lombardo. P, Pastina. D en Bucciarelli. T, „Adaptive polarimetric target detection with coherent radar. Part II: Detection against nonGaussian background,” IEEE Trans. Aerosp. Electr. Syst, vol. 37, pp. 1207-1220, 2001.
[8] De Maio.A en Alfano. G, „Polarimetric adaptive detection in non-Gaussian noise,” Signal Processing, vol. 83, pp. 297-306, 2003.
[9] Bo Ren, Longfei Shi en Guoyu Wang, „Polarimetric Target Detection Using Statistic of the Degree of Polarization,” Progress In Electromagnetics Reserch M, vol. 46, pp. 143152, 2016.
10 Peng Wu, Jun Wang en Wenguang Wang, „A Novel Method of Small Target Detection in Sea Clutter,” International Scholarly Research Network ISRN Signal Processing, vol. 33, nr. 4, pp. 816-822, 2011.
11 Nadarajah S, „Comments on Eigendecomposition of multi-channel covariance matrix with applications to SAR-GMTI,” Signal processing, vol. 87, pp. 1534-1536, 2007.
12 Hajnsek, L, Pottier, E en Cloude, S.R, „Inversion of surface parameters from polarimetric SAR,” IEEE Trans Geosci. Remote Sens, vol. 4, pp. 727744, 2003.
13 Li, Z, Bao, Z, Li, H en Liao, G, „Image autocoregistration and InSAR interferogram estimation using joint subspace projection,” IEEE Trans. Geosci. Remote Sens, vol. 44, pp. 288-297, 2006.
14 Erten, E, Reigber, A, Ferro-Famil, L en Hellwich, ] O, „A new coherent similarity measure for temporal multichannel scene characterization,” IEEE Trans. Geosci. Remote Sens, vol. 50, pp. 113, 2011.
15 Zandona-Schneider, R en Fernandes, D, „Entropy Concept for Change Detection in Multitemporal SAR Images,” in In Proceeding of EUSAR, Koln, Germany, 2002.
16 Cloude S.R en Pottier E, „An entropy based classification scheme for land applications of polarimetric SAR,” IEEE Transactions on Geoscience and Remote Sensing, vol. 35, nr. 1, pp. 68-78, 2008.
17 S. Kay, Fundamentals of Statistical Signal ] Processing: Detection Theory, NJ: Prentice-Hall: Englewood Cliffs, 1993.
18 Haykin. S, „Information on: http://soma.ece.mcmaster.ca/ipix/dartmouth/datasets.html”.
Опубликован
2021-05-14
Как цитировать
Pham , T. 2021. «THE TARGET DETECTION ON THE SEA SURFACE BASED ON STANDARD DEVIATION OF THE MAXIMUM EIGENVALUE OF THE POLARIZATION COVARIANCE MATRIX ». EurasianUnionScientists, май, 3-9. https://doi.org/10.31618/ESU.2413-9335.2021.1.85.1322.