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Research Article
Execution of wideband Radar to ISAR imaging using Enhanced Fast Chirp Fourier Transform
M Santhini1
G Kalpanadevi2
12Department of ECE, C.V .Raman College of Engineering, ODISHA, India.
Published Online: March-April 2020
Pages: 04-05
Cite this article
No DOIReferences
[1] D.R.Wehner, High-Resolution Radar, 2nd ed. Norwood, MA: Artech House,1995.
[2] F. Berizzi, E. D. Mese, M. Diani, M. Martorella, High-resolution ISAR imaging of maneuvering targets by means of the
range instantaneous Doppler technique: Modeling and performance analysis, IEEE Trans. Image Process, 10(12), 2001,1880–1890.
[3] G.Zhao-Zhao, L.Ya-Chao, X.MengDao, W.Genyuan, Z.Shou-Hong B.Zheng, ISAR Imaging of manoeuvring targets with the range instantaneous chirp rate technique, IET Radar, Sonar and Navigation, 3(11), 2009,449-460.
[4] V.C. Chen, S. Qian, Joint time-frequency transform for radar range-Doppler imaging, IEEE Trans Aerospace Electron Syst 34, 1998,486–499.
[5] V.C. Chen, Applications of time-frequency processing to radar imaging, Proc SPIE, 2762,1996,23–31.
[6] Lee.T.S, Image representation using 2D Gabor wavelets, IEEE Trans. Pattern Analysis and Machine Intelligence, 18(10), 1996,959-971.
[7] S.Qian, D. Chen, Joint time-frequency analysis methods and applications, Prentice Hall PTR, San Francisco, CA1996
[8] M.Xing, R.Wu, Y. Li, Z.Bao, New ISAR imaging algorithm based on modified Wigner Ville distribution, IET Radar Sonar Navigation, 3(1),2009,70-80.
[9] Yong Wang, Yicheng Jiang, ISAR Imaging of a Ship Target Using Product High-Order Matched-Phase Transform, IEEE Geoscience and Remote Sensing Letters,6(4), 2009, 658- 661.
[10] Yong Wang, Yicheng Jiang, Inverse Synthetic Aperture Radar Imaging of Maneuvering Target Based on the Product Generalized Cubic Phase Function, IEEE Geoscience and Remote Sensing Letters, 8(5), 2011,958-962.
[11] Y. Li, R.Wu, M.Xing, Z.Bao, Inverse synthetic aperture radar imaging of ship target with complex motion, IET Radar Sonar Navigation, 2(6), 2008,395-403.
[2] F. Berizzi, E. D. Mese, M. Diani, M. Martorella, High-resolution ISAR imaging of maneuvering targets by means of the
range instantaneous Doppler technique: Modeling and performance analysis, IEEE Trans. Image Process, 10(12), 2001,1880–1890.
[3] G.Zhao-Zhao, L.Ya-Chao, X.MengDao, W.Genyuan, Z.Shou-Hong B.Zheng, ISAR Imaging of manoeuvring targets with the range instantaneous chirp rate technique, IET Radar, Sonar and Navigation, 3(11), 2009,449-460.
[4] V.C. Chen, S. Qian, Joint time-frequency transform for radar range-Doppler imaging, IEEE Trans Aerospace Electron Syst 34, 1998,486–499.
[5] V.C. Chen, Applications of time-frequency processing to radar imaging, Proc SPIE, 2762,1996,23–31.
[6] Lee.T.S, Image representation using 2D Gabor wavelets, IEEE Trans. Pattern Analysis and Machine Intelligence, 18(10), 1996,959-971.
[7] S.Qian, D. Chen, Joint time-frequency analysis methods and applications, Prentice Hall PTR, San Francisco, CA1996
[8] M.Xing, R.Wu, Y. Li, Z.Bao, New ISAR imaging algorithm based on modified Wigner Ville distribution, IET Radar Sonar Navigation, 3(1),2009,70-80.
[9] Yong Wang, Yicheng Jiang, ISAR Imaging of a Ship Target Using Product High-Order Matched-Phase Transform, IEEE Geoscience and Remote Sensing Letters,6(4), 2009, 658- 661.
[10] Yong Wang, Yicheng Jiang, Inverse Synthetic Aperture Radar Imaging of Maneuvering Target Based on the Product Generalized Cubic Phase Function, IEEE Geoscience and Remote Sensing Letters, 8(5), 2011,958-962.
[11] Y. Li, R.Wu, M.Xing, Z.Bao, Inverse synthetic aperture radar imaging of ship target with complex motion, IET Radar Sonar Navigation, 2(6), 2008,395-403.
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