Vol. 96
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]
2020-09-04
Auxiliary Antenna Array Analysis and Design for Sidelobe Interference Cancellation of Satellite Communication System
By
Progress In Electromagnetics Research M, Vol. 96, 55-67, 2020
Abstract
An auxiliary antenna array scheme for sidelobe interference cancellation of satellite communication system is proposed in this paper. Considering earth curvature, signal bandwidth and transmission loss, a precise model of satellite communication interference scenario is established. In order to improve anti-interference capability, the performance of the auxiliary antenna array is studied by the minimum mean square error (MMSE) criterion. Then, a 7-unit linear microstrip antenna array is manufactured as the auxiliary antenna array. The main contribution of this paper is the corresponding auxiliary antenna array analysis and design. Simulated and experimental results confirm that the proposed scheme can achieve a relatively high interference cancellation radio (ICR) of about 25 dB in a wide beam range.
Citation
Qiliang Wang, Yi Li, Kang Luo, Qing Wang, Fangmin He, and Bin Li, "Auxiliary Antenna Array Analysis and Design for Sidelobe Interference Cancellation of Satellite Communication System," Progress In Electromagnetics Research M, Vol. 96, 55-67, 2020.
doi:10.2528/PIERM20071502
References

1. Pan, Z., "Talking about the adjustment of Ku-band satellite system on-line and signal transmission process," Science and Technology Vision, 23-24, Nov. 2017.

2. Pan, G., Anti-jamming Technology of Satellite Navigation Receiver, 322-325, Electronic Industry Press, May 2016.

3. Naik, K. and K. Raju, "Synthesis of linear concentric ring arrays with high directivity and low sidelobe levels," Wireless Personal Communications, Vol. 87, No. 12, 1-15, Aug. 2016.

4. Zhao, S., Research on sidelobe cancellation technology of beidou navigation receiver, Nanjing University of Posts and Telecommunications, May 2017.

5. Howells, P. W., Intermediate frequency sidelobe canceller, U.S. Patent3202990, Aug. 1965.

6. Mohammed, J. R. and K. H. Sayidmarie, "Performance evaluation of theadaptive sidelobe canceller system with various auxiliary configurations," AEU — International Journal of Electronics and Communications, Vol. 80, 179-185, Aug. 2017.

7. Toshiyuki, K., et al., "Interference cancellation system for satellite communication earth station," IEEE Transactions on Communications, Vol. 32, No. 7, 796-803, Jul. 1984.

8. Byounghak, K., H. Yu, and S. Noh, "Cognitive interference cancellation with digital channelizer for satellite communication," Sensor, Vol. 20, No. 2, 355, May 2020.

9. Xu, R. Y., "Self-Interference cancellation scheme for secure AF satellite communication based on FH-MWFRFT," IEEE Communications Letters, Vol. 23, No. 11, 2050-2053, Sep. 2019.

10. Manlio, B., "Diversity framed slotted aloha with interference cancellation for maritime satellite communications," ICC 2019 — 2019 IEEE International Conference on Communications (ICC), Shanghai, China, May 2019.

11. Liu, Y. P. and L. P. Wang, "Adaptive wideband sidelobe cancellation based on uniform line array," IEEE Transactions on Communications, Vol. 12, No. 3, 130-133, Apr. 2012.

12. Jeffs, D. and K. Warnick, "Improved interference cancellation in synthesis array radio astronomy using auxiliary antennas," International Conference on Acoustics, Speech and Signal Processing (ICASSP), 2003.

13. Mohammed, J. and K. Sayidmarie, "Performance evaluation of the adaptive sidelobe canceller system with various auxiliary configurations," International Journal of Electronics and Communications (AEU), 179-185, Jun. 2017.

14. Liao, K., Novel antenna array synthesis methods and adaptive sidelobe cancellation algorithms, Xiamen University, Xiamen, Jun. 2014.

15. Wang, B., Design and research of satellite anti-jamming device based on sidelobe cancellation technology, University of Electronic Science and Technology of China, Chengdu, May 2012.

16. Kamio, K. and T. Sato, "An adaptive sidelobe cancellation algorithm for high-gain antenna arrays," Electronics and Communications in Japan Part 1, Vol. 87, No. 3, 11-18, 2004.

17. Yang, R., Algorithms of sidelobe cancellation and mainlobe jamming cancellation by polarization for array antenna, Xidian University, Xi'an, Jan. 2012.

18. Byun, G., S. Kim, and H. Choo, "Optimum array configuration to improve the nullsteering performance for CRPA systems," Proceedings of ISAP, Dec. 2014.

19. Li, Z., "Ku-band satellite communication link calculation," Communication Technology, Vol. 48, No. 6, Naval University of Engineering, Jun. 2015.

20. Guan, Y., H. Y. Zhang, and R. Zhong, "Research on calculation model of satellite communication link under interference conditions," Communication Technology, Vol. 51, No. 10, 2279-2286, Oct. 2018.

21. Wang, L., "Zhongwei 1' communication satellite," Satellite and Network, Vol. 1, No. 3, 51-52, Jun. 2007.

22. Wen, B. P., et al., "Calculation and analysis of satellite transmission system links," Journal of China Three Gorges University: Natural Science Edition, Vol. 33, No. 3, 39-42ITU, Mar. 2011.

23. Smith, K., "Centimeter and millimeter wave attenuation and brightness temperature due to atmospheric oxygen and water vapor," Radio Science, Vol. 17, No. 6, 1455-1464, Nov. 1982.

24. Wei, Y., "Satellite communication link calculation," Command Information System and Technology, Vol. 1, No. 5, 73-76, Oct. 2014.

25. Yong, J. S., "Calculation of microwave interference to C-band satellite receiving station and anti-jamming measures," Industrial Technology, No. 24, May 2009.

26. Tian, X. C., "A review of research on satellite communication radio wave propagation," Railway Communication Signals, 6-8, Aug. 1988.

27. Ling, Y. D. and Y. L. Wang, "Least squares algorithm using adaptive processing of single snapshot data," Journal of Huazhong University of Science and Technology (Natural Science Edition), Vol. 37, No. 22–24, May 2009.

28. Long, S. M., S. R. Pen, and H. Y. Tang, "Analysis and comparison of adaptive sidelobe cancellation system interference methods," Electronic Information Countermeasure Technology, Vol. 31, No. 1, 38-42, Jan. 2016.

29. Lei, D., Research on microstrip array antenna, Harbin University of Technology, Harbin, Mar. 2016.

30. Hu, S. L., "Research on the technology of radar sidelobe cancellation of multi-directional saturated jamming," Modern Defense Technology, Vol. 42, No. 3, 25-30, May 2014.