AUTHORS: Amir Almslmany
Download as PDF
ABSTRACT: This paper proposes an airborne self-deception jammer (ASDJ) model based on chaotic algorithm and random sub-nyquist sampling (CA/RSN), this jammer generates false targets with finer resolution and different power using logistic map, these false targets retains the information of the airborne platform and their power level varies around the real platform echo power, the random sub-nyquist sampling greatly reduces the demand on sampling rate and processing speed, then a false scene at different ranges and power levels are created on the victim radar scope to provide an effective protection for the airborne platform from the ground radars and missile stations, the simulation was done on a model of Yake-42 plane to validate the effectiveness of the proposed jamming model.
KEYWORDS: Deceptive; Chaotic; Jamming; Radar; Spoofing; Nyquist
REFERENCES:
[1] Chen, V.C., Miceli, W.J. Simulation of ISAR imaging of moving targets, IEE Proc. Radar, Sonar, Navig., vol. 148, no. 3, pp. 160–166, 2001.
[2] Berger, S.D., Digital radio frequency memory linear range gate stealer spectrum, IEEE Transa. Aerosp. Electron. Syst., vol. 39, no. 2, pp. 725– 735, 2003.
[3] Liu, Q.F., Xing, S.Q., Wang, X.S., Dong, J., Dai, D.H., The interferometry phase of In SAR coherent jamming with arbitrary waveform modulation, Prog. Electromagn. Res., vol. 24, pp. 101–118, 2012.
[4] Liu, Q.F., Xing, S.Q., Wang, X.S., Dong, J., The ‘slope’ effect of coherent transponder in In SAR DEM, Prog. Electromagn. Res., vol. 126, pp. 125–133, 2012.
[5] Hu, D.H., Wu, Y.R., The scatter-wave jamming to SAR, Acta Electron. Sin., vol. 30, no. 12, pp. 1882–1884, 2002.
[6] Pan, X., Wang, W., Feng, D., Huang, J., Fu, Q., Wang, G., Rotational micro-motion modulated jamming for countering ISAR based on intermittent sampling repeater, Prog. Electromagn. Res.(C), vol. 36, pp. 41–56, 2013.
[7] L. Zhang, M. Xing, C. Qiu, J. Li, and Z. Bao, Achieving higher resolution ISAR imaging with limited pulses via compressed sampling, IEEE Geosci. Remote Sens. Lett., vol. 6, no. 3, pp. 567– 571, Jul. 2009.
[8] D. Donoho, Compressed sensing, IEEE Trans. Inf. Theory, vol. 52, no. 4, pp. 1289–1306, Apr. 2006.
[9] Xu Shaokun, Liu Jihong, Fu Yaowen, Li Xiang, Deception Jamming Method for ISAR Based on Sub-Nyquist Sampling Technology, Signal Processing (ICSP), 2010 IEEE 10th International Conference, oct. 2010, pp. 2023 – 2026.
[10] Candès, E.J., Wakin, M.B., An introduction to compressive sampling, IEEE Signal Process. Mag., vol. 25, no. 2, pp. 21–30, 2008.
[11] M. Barbary, Peng Zong, A Novel Stealthy Target Detection Based on Stratospheric Balloon-borne Positional Instability due to Random Wind, Radio Engineering, vol. 23, no. 4, pp. 1192-1202, Dec. 2014.
[12] Murino, V., Trucco, A., Regazzoni, C.S., Synthesis of unequally spaced arrays by simulated annealing, IEEE Trans. Signal Process., vol. 44, no. 1, pp. 119–122, 1996.
[13] Xiaoyi Pan, Wei Wang, Dejun Feng, Yongcai Liu, Qixiang Fu, Guoyu Wang, on deception jamming for countering bistatic ISAR base on Sub-Nyquist sampling, Radar, Sonar & Navigation, IET, vol. 8, no. 3, pp. 173-179, 2014.
[14] Mohd. Ahmed, Parameterized DRFM Modulator for ECM Systems, International Journal of Advanced Electronics & Communication Systems, vol. 1, no. 1, pp. A56, feb. 2012.
[15] Xiufeng, S., Peter W., Shengli, Z. Jammer detection and estimation with MIMO radar, Signals Systems and Computers (ASILOMAR) Conference, 2012, pp. 1312 – 1316.
[16] Amir Almslmany, Qunsheng Cao, Caiyun Wang, Anew airborne self-protection jammer for countering ground radars based on sub-nyquist, IEICE electronics express, Vol.12, No.10, pp. 1-11, 2015.
[17] A Almslmany, C Wang, Q Cao, Advanced deceptive jamming model based on DRFM SubNyquist sampling, Applied Sciences and Technology (IBCAST), 2016 13th International Bhurban, pp. 727-730, 2016.