Vol. 38
Latest Volume
All Volumes
PIERM 126 [2024] PIERM 125 [2024] PIERM 124 [2024] PIERM 123 [2024] PIERM 122 [2023] PIERM 121 [2023] PIERM 120 [2023] PIERM 119 [2023] PIERM 118 [2023] PIERM 117 [2023] PIERM 116 [2023] PIERM 115 [2023] PIERM 114 [2022] PIERM 113 [2022] PIERM 112 [2022] PIERM 111 [2022] PIERM 110 [2022] PIERM 109 [2022] PIERM 108 [2022] PIERM 107 [2022] PIERM 106 [2021] PIERM 105 [2021] PIERM 104 [2021] PIERM 103 [2021] PIERM 102 [2021] PIERM 101 [2021] PIERM 100 [2021] PIERM 99 [2021] PIERM 98 [2020] PIERM 97 [2020] PIERM 96 [2020] PIERM 95 [2020] PIERM 94 [2020] PIERM 93 [2020] PIERM 92 [2020] PIERM 91 [2020] PIERM 90 [2020] PIERM 89 [2020] PIERM 88 [2020] PIERM 87 [2019] PIERM 86 [2019] PIERM 85 [2019] PIERM 84 [2019] PIERM 83 [2019] PIERM 82 [2019] PIERM 81 [2019] PIERM 80 [2019] PIERM 79 [2019] PIERM 78 [2019] PIERM 77 [2019] PIERM 76 [2018] PIERM 75 [2018] PIERM 74 [2018] PIERM 73 [2018] PIERM 72 [2018] PIERM 71 [2018] PIERM 70 [2018] PIERM 69 [2018] PIERM 68 [2018] PIERM 67 [2018] PIERM 66 [2018] PIERM 65 [2018] PIERM 64 [2018] PIERM 63 [2018] PIERM 62 [2017] PIERM 61 [2017] PIERM 60 [2017] PIERM 59 [2017] PIERM 58 [2017] PIERM 57 [2017] PIERM 56 [2017] PIERM 55 [2017] PIERM 54 [2017] PIERM 53 [2017] PIERM 52 [2016] PIERM 51 [2016] PIERM 50 [2016] PIERM 49 [2016] PIERM 48 [2016] PIERM 47 [2016] PIERM 46 [2016] PIERM 45 [2016] PIERM 44 [2015] PIERM 43 [2015] PIERM 42 [2015] PIERM 41 [2015] PIERM 40 [2014] PIERM 39 [2014] PIERM 38 [2014] PIERM 37 [2014] PIERM 36 [2014] PIERM 35 [2014] PIERM 34 [2014] PIERM 33 [2013] PIERM 32 [2013] PIERM 31 [2013] PIERM 30 [2013] PIERM 29 [2013] PIERM 28 [2013] PIERM 27 [2012] PIERM 26 [2012] PIERM 25 [2012] PIERM 24 [2012] PIERM 23 [2012] PIERM 22 [2012] PIERM 21 [2011] PIERM 20 [2011] PIERM 19 [2011] PIERM 18 [2011] PIERM 17 [2011] PIERM 16 [2011] PIERM 14 [2010] PIERM 13 [2010] PIERM 12 [2010] PIERM 11 [2010] PIERM 10 [2009] PIERM 9 [2009] PIERM 8 [2009] PIERM 7 [2009] PIERM 6 [2009] PIERM 5 [2008] PIERM 4 [2008] PIERM 3 [2008] PIERM 2 [2008] PIERM 1 [2008]
2014-09-03
Invalidation Analysis and Revision of Polar Format Algorithm for Dechirped Echo Signals in ISAR Imaging
By
Progress In Electromagnetics Research M, Vol. 38, 113-121, 2014
Abstract
In this paper, we present a detailed analysis on the invalidation of the polar format algorithm (PFA) for the dechirped echo signals in inverse synthetic aperture radar (ISAR) imaging. After the translational motion compensation, the polar section of the dechirped signals is often undermined, and then the PFA is invalid. A revised method by range shifting is proposed to compensate the echo signals, and the standard polar section is obtained. An improved performance was achieved on the simulated and real data experiments. The theoretical analysis and the proposed method are confirmed.
Citation
Yang Liu, Na Li, Bin Yuan, and Zeng Ping Chen, "Invalidation Analysis and Revision of Polar Format Algorithm for Dechirped Echo Signals in ISAR Imaging," Progress In Electromagnetics Research M, Vol. 38, 113-121, 2014.
doi:10.2528/PIERM14061704
References

1. Chen, C. C. and H. C. Andrews, "Target motion induced radar imaging," IEEE Trans. Aerosp. Electron. Syst., Vol. 16, No. 1, 2-14, 1980.
doi:10.1109/TAES.1980.308873

2. Zhou, F., X. Bai, M. Xing, and Z. Bao, "Analysis of wide-angle radar imaging," IET Radar, Sonar and Navigation, Vol. 5, No. 4, 449-457, 2011.
doi:10.1049/iet-rsn.2010.0076

3. Xing, M., R. Wu, J. Lan, and Z. Bao, "Migration through resolution cell compensation in ISAR imaging," IEEE Geosci. Remote Sens. Lett., Vol. 1, No. 2, 141-144, Apr. 2004.
doi:10.1109/LGRS.2004.824766

4. Wang, Y. and Y. C. Jiang, "A novel algorithm for estimating the rotation angle in ISAR imaging," IEEE Geosci. Remote Sens. Lett., Vol. 5, No. 4, 608-609, Oct. 2008.
doi:10.1109/LGRS.2008.2000955

5. Carrara, W. G. and R. S. Goodman, Spotlight Synthetic Aperture Radar Signal Processing Algorithms, 157-189, Artech House, Boston, MA, 1995.

6. LeCaillec, J.-M., "SAR remote sensing analysis of the sea surface by polynomial filtering," IEEE Trans. Signal Process., Vol. 24, No. 4, 105-107, Jul. 2007.
doi:10.1109/MSP.2007.4286568

7. Yu, T., M. DT., . Xing, and B. Zhen, "The polar format imaging algorithm based on double chirp-Z transforms," IEEE Geosci. Remote Sens. Lett., Vol. 5, No. 4, 610-614, Oct. 2008.

8. Yang, Z. M., G. C. Sun, and M. D. Xing, "A new fast back-projection algorithm using polar format algorithm," 2013 Asia-Pacific Conference on Synthetic Aperture Radar, 373-376, 2013.

9. Mensa, D. L., "High Resolution Radar Imaging," 1224, Artech House, Dedham, MA, 1981.

10. Munoz-Ferreras, J. M. and F. Perez-Martınez, "Uniform rotational motion compensation for inverse synthetic aperture radar with non-cooperative targets," IET Radar Sonar Navig., Vol. 2, No. 1, 25-34, Jan. 2008.
doi:10.1049/iet-rsn:20060170

11. Zhang, W. C., Z. P. Chen, and B. Yuan, "Rotational motion compensation for wide-angle ISAR imaging based on integrated cubic phase function," IET International Radar Conference 2013, Vol. 1, No. 5, 14-16, Apr. 2013.

12. Wang, M., A. K. Chan, and C. K. Chui, "Linear frequency-modulated signal detection using Radon-Ambiguity transform," IEEE Trans. Signal Processing, Vol. 46, No. 3, 571-586, Mar. 1998.
doi:10.1109/78.661326

13. O’Shea, P., "A new technique for estimating instantaneous frequency rate," IEEE Signal Processing Lett., Vol. 9, No. 8, 251-252, Aug. 2002.
doi:10.1109/LSP.2002.803003

14. Hu, J. M., W. Zhou, and Y. W. Fu, "Uniform rotational motion compensation for ISAR based on phase cancellation," IEEE Geosci. Remote Sens. Lett., Vol. 8, No. 4, 636-641, Jul. 2011.
doi:10.1109/LGRS.2010.2098841

15. Wang, J., X. Liu, and Z. Zhou, "Minimum-entropy phase adjustment for ISAR," IEE Proc. Radar Sonar Navig., Vol. 151, No. 4, 203-209, Aug. 2004.
doi:10.1049/ip-rsn:20040692

16. Wang, J. F. D., "Kasilingam. Global range alignment for ISAR," IEEE Trans. Aerosp. Electron. Syst., Vol. 39, No. 1, 351-357, 2003.
doi:10.1109/TAES.2003.1188917