Search search
submit Submit
Publication Date
to
Vol. 87
Latest Volume
All Volumes
PIER 180 [2024] PIER 179 [2024] PIER 178 [2023] PIER 177 [2023] PIER 176 [2023] PIER 175 [2022] PIER 174 [2022] PIER 173 [2022] PIER 172 [2021] PIER 171 [2021] PIER 170 [2021] PIER 169 [2020] PIER 168 [2020] PIER 167 [2020] PIER 166 [2019] PIER 165 [2019] PIER 164 [2019] PIER 163 [2018] PIER 162 [2018] PIER 161 [2018] PIER 160 [2017] PIER 159 [2017] PIER 158 [2017] PIER 157 [2016] PIER 156 [2016] PIER 155 [2016] PIER 154 [2015] PIER 153 [2015] PIER 152 [2015] PIER 151 [2015] PIER 150 [2015] PIER 149 [2014] PIER 148 [2014] PIER 147 [2014] PIER 146 [2014] PIER 145 [2014] PIER 144 [2014] PIER 143 [2013] PIER 142 [2013] PIER 141 [2013] PIER 140 [2013] PIER 139 [2013] PIER 138 [2013] PIER 137 [2013] PIER 136 [2013] PIER 135 [2013] PIER 134 [2013] PIER 133 [2013] PIER 132 [2012] PIER 131 [2012] PIER 130 [2012] PIER 129 [2012] PIER 128 [2012] PIER 127 [2012] PIER 126 [2012] PIER 125 [2012] PIER 124 [2012] PIER 123 [2012] PIER 122 [2012] PIER 121 [2011] PIER 120 [2011] PIER 119 [2011] PIER 118 [2011] PIER 117 [2011] PIER 116 [2011] PIER 115 [2011] PIER 114 [2011] PIER 113 [2011] PIER 112 [2011] PIER 111 [2011] PIER 110 [2010] PIER 109 [2010] PIER 108 [2010] PIER 107 [2010] PIER 106 [2010] PIER 105 [2010] PIER 104 [2010] PIER 103 [2010] PIER 102 [2010] PIER 101 [2010] PIER 100 [2010] PIER 99 [2009] PIER 98 [2009] PIER 97 [2009] PIER 96 [2009] PIER 95 [2009] PIER 94 [2009] PIER 93 [2009] PIER 92 [2009] PIER 91 [2009] PIER 90 [2009] PIER 89 [2009] PIER 88 [2008] PIER 87 [2008] PIER 86 [2008] PIER 85 [2008] PIER 84 [2008] PIER 83 [2008] PIER 82 [2008] PIER 81 [2008] PIER 80 [2008] PIER 79 [2008] PIER 78 [2008] PIER 77 [2007] PIER 76 [2007] PIER 75 [2007] PIER 74 [2007] PIER 73 [2007] PIER 72 [2007] PIER 71 [2007] PIER 70 [2007] PIER 69 [2007] PIER 68 [2007] PIER 67 [2007] PIER 66 [2006] PIER 65 [2006] PIER 64 [2006] PIER 63 [2006] PIER 62 [2006] PIER 61 [2006] PIER 60 [2006] PIER 59 [2006] PIER 58 [2006] PIER 57 [2006] PIER 56 [2006] PIER 55 [2005] PIER 54 [2005] PIER 53 [2005] PIER 52 [2005] PIER 51 [2005] PIER 50 [2005] PIER 49 [2004] PIER 48 [2004] PIER 47 [2004] PIER 46 [2004] PIER 45 [2004] PIER 44 [2004] PIER 43 [2003] PIER 42 [2003] PIER 41 [2003] PIER 40 [2003] PIER 39 [2003] PIER 38 [2002] PIER 37 [2002] PIER 36 [2002] PIER 35 [2002] PIER 34 [2001] PIER 33 [2001] PIER 32 [2001] PIER 31 [2001] PIER 30 [2001] PIER 29 [2000] PIER 28 [2000] PIER 27 [2000] PIER 26 [2000] PIER 25 [2000] PIER 24 [1999] PIER 23 [1999] PIER 22 [1999] PIER 21 [1999] PIER 20 [1998] PIER 19 [1998] PIER 18 [1998] PIER 17 [1997] PIER 16 [1997] PIER 15 [1997] PIER 14 [1996] PIER 13 [1996] PIER 12 [1996] PIER 11 [1995] PIER 10 [1995] PIER 09 [1994] PIER 08 [1994] PIER 07 [1993] PIER 06 [1992] PIER 05 [1991] PIER 04 [1991] PIER 03 [1990] PIER 02 [1990] PIER 01 [1989]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2008-11-12
New Anti-Arm Technique by Using Random Phase and Amplitude Active Decoys
By
Mohammad Emadi,

    Dr. Mohammad Emadi

    Shahid Beheshti Institute of Communication

    Iran

    Homepage

Amir Jafargholi,

    Dr. Amir Jafargholi

    Department of Physics and Energy Engineering

    Amirkabir University of Technology (Tehran Polytechnic)

    Iran

    Homepage

H. S. Moghadam,

    Dr. H. S. Moghadam

    Sharif University of Technology

    Iran

    Homepage

F. Marvasti

    Dr. F. Marvasti

    Sharif University of Technology

    Iran

    Homepage

Progress In Electromagnetics Research, Vol. 87, 297-311, 2008
doi:10.2528/PIER08100404
Abstract
This paper presents a new method to counter Anti Radiation Missiles (ARM) threats, which is effective against advanced ARM. By using random phase and amplitude active decoys in the specified optimum positions and network implementation we show that the ARM threats will be removed dramatically. Also, iterative methods are presented to cancel the internal interference effects in the proposed structure.
Citation
Mohammad Emadi, Amir Jafargholi, H. S. Moghadam, and F. Marvasti, "New Anti-Arm Technique by Using Random Phase and Amplitude Active Decoys," Progress In Electromagnetics Research, Vol. 87, 297-311, 2008.
doi:10.2528/PIER08100404
References

1. Rocca, P., L. Manica, and A. Massa, "An effective excitation matching method for the synthesis of optimal compromises between sum and difference patterns in planar arrays," Progress In Electromagnetics Research B, Vol. 3, 115-130, 2008.
doi:10.2528/PIERB07120403

2. Lee, K.-C., C.-W. Huang, and M.-C. Fang, "Radar target recognition by projected features of frequency-diversity RCS," Progress In Electromagnetics Research, Vol. 81, 121-133, 2008.
doi:10.2528/PIER08010206

3. Qu, Y., G. S. Liao, S. Q. Zhu, X. Y. Liu, and H. Jiang, "Performance analysis of beamforming for MIMO radar," Progress In Electromagnetics Research, Vol. 84, 123-134, 2008.
doi:10.2528/PIER08062306

4. Qu, Y., G. S. Liao, S. Q. Zhu, and X. Y. Liu, "Pattern synthesis of planar antenna array via convex optimization for airborne forward looking radar," Progress In Electromagnetics Research, Vol. 84, 1-10, 2008.
doi:10.2528/PIER08060301

5. Sabry, R. and P. W. Vachon, "Advanced polarimetric Synthetic Aperture Radar (SAR) and Electro-Optical (EO) data fusion through unified coherent formulation of the scattered EM field," Progress In Electromagnetics Research, Vol. 84, 189-203, 2008.
doi:10.2528/PIER08071005

6. Zang, W., Z. G. Shi, S. C. Du, and K. S. Chen, "Novel roughening method for reentry vehicle tracking using particle filter," Journal of Electromagnetic Waves and Applications, Vol. 21, No. 14, 1969-1981, 2007.
doi:10.1163/156939307783152975

7. Mahanti, G. K., A. Chakraborty, and S. Das, "Design of fully digital controlled reconfigurable array antennas with fixed dynamic range ratio," Journal of Electromagnetic Waves and Applications, Vol. 21, No. 1, 97-106, 2007.
doi:10.1163/156939307779391768

8. Shi, Z. G., S. Qiao, and K. S. Chen, "Detection and localization of RF radar pulses in noise environments using wavelet packet transform and higher order statistics," Progress In Electromagnetics Researc, Vol. 58, 301-317, 2006.

9. Soliman, M. S., T. Morimoto, and Z. I. Kawasaki, "Three dimensional localization system for impulsive noise sources using ultra wideband digital interferometer technique," Journal of Electromagnetic Waves and Applications, Vol. 20, No. 4, 515-530, 2006.
doi:10.1163/156939306776117027

10. Singh, A. K., P. Kumar, T. Chakravarty, G. Singh, and S. Bhooshan, "A novel digital beamformer with low angle resolution for vehicle tracking radar," Progress In Electromagnetics Research, Vol. 66, 229-237, 2006.
doi:10.2528/PIER06112102

11. Li, N., "Radar ECCM’s new area: Anti-STEALTH and anti-ARM," IEEE Transactions on Aerospace and Electronic Systems, Vol. 31, No. 3, July 1995.

12. Lian, W., "Discussion of radar anti anti-radiation missile technology — Alarming plus decoy system," International Radar Conference,CIE 2001, 2001.

13. Wang, F., R. He, and X. Sha, "Anti-ARMtec hnique: Feature analysis of ARM warning radar," International Radar Conference, CIE 2001, 2001.

14. Schindler, J. K., "Netted search radar system," U. S. Pat., No. 4347513, Aug. 31 1982.

15. Manoogian, D. V., B. H. Labitt, and J. R. Wood, "Transmitter peak power efficient pseudo-blink ARM decoy system," U. S. Pat., No. 4433333, Feb. 21 1984.

16. Atar, D., "Operation of a decoy against threats," U. S. Pat., No. 6833804, Dec. 21 2004.

17. Manoogian, D. V., "Missile decoy system," U. S. Pat., No. 4990919, Feb. 5 1991.

18. Rougas, J. A., "Anti-Radar Missile (ARM) countermeasure method," U. S. Pat., No. 6414622, July 2 2002.

19. Skolnik, M. I., Introduction to Radar Systems, McGraw-Hill, 2002.

20. Dunn, J. H. and D. D. Howard, "Radar target amplitude, angle, and Doppler scintillation from analysis of the echo signal propagation in space," IEEE Trans. on Microwave Theory and Techniques, Vol. 6, No. 9, 715-728, Sept. 1968.
doi:10.1109/TMTT.1968.1126776

21. Kanter, I., "Varieties of average monopulse responses to multiple targets," IEEE Trans. on Aerospace and Electronic Systems, Vol. 17, No. 1, 25-28, Jan. 1981.
doi:10.1109/TAES.1981.309032

22. Kanter, I., "Multiple Gaussian targets: The track-on-jam problem," IEEE Trans. on Aerospace and Electronic Systems, Vol. 13, No. 6, 620-623, Nov. 1977.
doi:10.1109/TAES.1977.308502

23. Patel, P. and J. Holtzman, "Analysis of a simple successive interference cancellation scheme in a DS/CDMA system," IEEE J. Select. Areas Commun., Vol. 12, No. 5, 796, June 1994.
doi:10.1109/49.298053

24. Elders-Boll, H., M. Herper, and A. Busboom, "Adaptive receivers for mobile DS-CDMA communication systems," Proc. of IEEE Vehicular Technology Conference, Vol. 3, May 1997.

25. Elders-Boll, H., A. Busboom, and H. D. Schotten, "Spreading sequences for zero-forcing DS-CDMA multiuser detectors," Proc. of 8th IEEE International Symposium, PIMRC'97, Sept. 1997.

26. Guo, D., L. K. Rasmussen, S. Sumei, T. J. Lim, and C. Cheah, "MMSE-based linear parallel interference cancellation in CDMA," Proc. of IEEE International Symposium Spread Spectrum Techniques and Appl., Sept. 1998.

27. Rasmussen, L. K., Y. Ma, D. Guo, and T. J. Lim, "Aspects on linear parallel interference cancellation in CDMA," Proc. of IEEE International Symposium Informormation Theory, 37, Aug. 1998.

28. Grant, A. and C. Schlegel, "Iterative implementation for linear multiuser detectors,", 1999.

Download Full Article (746) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.