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A new acceleration method is proposed for efficiently solving the problem of electromagnetic scattering from metal targets in half-space. The analysis of electromagnetic problems in any structure can be settled by the electric field integral equation. But the generated matrix condition number is large and the iterative solution has poor convergence. The number of the matrix condition generated by the magnetic field integral equation is small and iterative convergence is good. But only the closed structure problems can be worked out. The combined field integral equation is adopted because of the universality of the electric field integral equation and the convergence of the magnetic field integral equation. The gradient term of Green's function is involved in the integral equation of the mixed field. In order to further enhance the calculation efficiency, an efficient four-dimensional spatial interpolation method is introduced for half-space Green's function. Tabulation and lagrange interpolations are performed in the Sommerfeld integrals for the half-space Green's function. The improved efficiency can be 7.5 times higher than that of the traditional combined field integral equation(CFIE). Numerical results show that the computational time can be reduced significantly by the proposed method with encouraging accuracy.
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Keywords:
- electromagnetic scattering /
- combined field integral equation /
- half-space Green's function /
- spatial interpolation /
- sommerfeld integral
[1] Man L, Wei X, Xiao Z H 2017 International Applied Computational Electromagnetics Society Symposium Suzhou, China, August 1–4, 2017 p1
[2] 李冰, 马萌晨, 雷明珠 2017 66 050301Google Scholar
Li B, Ma M C, Lei M Z 2017 Acta Phys. Sin. 66 050301Google Scholar
[3] 向敏, 牛立强, 武沛羽, 谢拥军, 石宋华, 严杰 2019 电子技术应用 45 1
Xiang M, Niu L Q, Wu P Y, Xie Y J, Shi S H, Yan J 2019 Appl. Electr. Tech. 45 1
[4] 聂在平, 陈涌频 2017 中国科学: 信息科学 47 545
Nie Z P, Chen Y P 2017 Chin. Sci. (Informationis) 47 545 (in Chinese)
[5] Yuan H, Wang C, Li Y, Liu N, Cui G 2016 International Symposium on Antennas, Propagation and EM Theory Guilin, China, Oct. 18–21, 2016 p75
[6] 魏仪文 2016 博士学位论文 (西安: 西安电子科技大学)
Wei Y W 2016 Ph. D. Dissertation (Xi'an: Xidian University) (in Chinese)
[7] 邵芸, 宫华泽, 田维, 张庆君, 王国军, 卞小林, 张婷婷, 张风丽, 李坤, 刘致曲, 倪崇 2021 遥感学报 25 323Google Scholar
Shao Y, Gong H Z, Tian W, Zhang Q J, Wang G J, Bian X L, Zhang T T, Zhang F L, Li K, Liu Z Q, Ni C 2021 J. Remote. Sens. 25 323Google Scholar
[8] 綦鑫 2019博士学位论文(成都: 电子科技大学)
Qi X 2019 Ph. D. Dissertation (Chengdu: University of Electronic Science and Technology of China)(in Chinese)
[9] Zhang R, Jia P, Hu L 2018 IEEE International Conference on Computational Electromagnetics Chendu, China, March 26–28, 2018 p1
[10] Li B C, Zhang Q Z, Liu H L 2021 2020 15th Symposium on Piezoelectrcity, Acoustic Waves and Device Applications Zhengzhou, China, April 16–19, 2021 p54
[11] Wang Y, Wang J, Yao L 2020 IEEE J. Multiscale and Multiphys. Comput. Techn. 5 273Google Scholar
[12] Zhang Y, Wang P, Li W, Yang S 2019 International Conference on Electromagnetics in Advanced Applications Granada, Spain, Sept 9–13, 2019 p0780
[13] 徐润汶, 郭立新, 范天奇 2013 62 170301Google Scholar
Xu R W, Guo L X, Fan T Q 2013 Acta Phys. Sin. 62 170301Google Scholar
[14] 陈涌频, 聂在平, 胡俊 2008 电子学报 3 562Google Scholar
Chen Y P, Nie Z P, Hu J 2008 Acta Electron. Sin. 3 562Google Scholar
[15] Sommerfeld A 1909 Ann. Phys. 28 665
[16] Weyl H 1919 Ann. Phys. 365 481Google Scholar
[17] Siegel M, King R 1971 IEEE Trans. Antennas. Propag. 19 477Google Scholar
[18] Xu X B, Butler C 1986 IEEE Trans. Antennas. Propag. 34 880Google Scholar
[19] Stratton I A 1941 Electromagnetic Theory (New York: Mc Graw-Hill Book Company)
[20] Michalski K A, Zheng D 1990 IEEE Trans. Antennas. Propag. 38 335Google Scholar
[21] Vitebskiy S, Carin L 1995 IEEE Trans. Antennas. Propag. 43 1303
[22] Geng N, Sullivan A, Carin L 2000 IEEE Trans. Geosci. Remote Sens. 38 1561Google Scholar
[23] Yang J J, Chow Y L, Fang D G 1991 IEEE Trans. Antennas. Propag. 138 319
[24] Aksun M I 1996 IEEE Trans. Microw. Theory Techn. 44 651Google Scholar
[25] Yuan M T, Sarkar T K, Salazar-Palma M 2006 IEEE Trans. Microw. Theory Techn. 5 1025
[26] Zhuang L, Zhu G Q, Zhang Y H 2007 IEEE Microw. Wireless Compon. Lett. 49 1337
[27] 潘锦, 文希理 1996 地球 s1 400
Pan J, Wen X L 1996 Chin. J. Geophys. s1 400 (in Chinese)
[28] 胡俊, 聂在平 1998 电子学报 3 126Google Scholar
Hu J, Nie Z P 1998 Acta Electron. Sin. 3 126Google Scholar
[29] Song Z, Zhou H, Zheng K, Hu J, Li W, Hong W 2013 IEEE Antennas. Propag. Mag. 55 92Google Scholar
[30] Wu B, Sheng X A 2015 IEEE Trans. Antennas. Propag. 63 3727Google Scholar
[31] Burke G, Miller E 1984 IEEE Trans. Antennas. Propag. 32 1040Google Scholar
[32] Eskelinen P 2002 IEEE Aerosp. Electr. Syst. Mag. 17 41Google Scholar
[33] Chen J Y, Kishk A A, Glisson A W 2000 Electromagnetics 20 1Google Scholar
[34] 罗万 2016 博士学位论文 (成都: 电子科技大学)
Luo W 2016 Ph. D. Dissertation (Chengdu: University of Electronic Science and Technology of China) (in Chinese)
[35] 胡云琴 2012 博士学位论文 (南京: 南京理工大学)
Hu Y Q 2012 Ph. D. Dissertation (Nanjing: Nanjing University of Science and Technology) (in Chinese)
[36] 张民, 李乐伟, 李良超, 吴振森 2008 中国科学 2 298
Zhang M, Li L W, Li L C, Wu Z S 2008 Chin. Sci. 2 298
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表 1 本文方法与FEKO、传统CFIE的计算资源比较
Table 1. Computational comparison among the proposed method, FEKO and the traditional CFIE.
模型 未知量 计算时间/s 计算内存/MB FEKO 传统CFIE 本文方法 FEKO 传统CFIE 本文方法 立方体 11682 1731 7560 1008 1229.0 1120.1 1251.9 slicy 7518 709 3204 432 533.6 545.8 557.0 船 14013 2541 18684 1476 1721.3 1613.6 1715.9 -
[1] Man L, Wei X, Xiao Z H 2017 International Applied Computational Electromagnetics Society Symposium Suzhou, China, August 1–4, 2017 p1
[2] 李冰, 马萌晨, 雷明珠 2017 66 050301Google Scholar
Li B, Ma M C, Lei M Z 2017 Acta Phys. Sin. 66 050301Google Scholar
[3] 向敏, 牛立强, 武沛羽, 谢拥军, 石宋华, 严杰 2019 电子技术应用 45 1
Xiang M, Niu L Q, Wu P Y, Xie Y J, Shi S H, Yan J 2019 Appl. Electr. Tech. 45 1
[4] 聂在平, 陈涌频 2017 中国科学: 信息科学 47 545
Nie Z P, Chen Y P 2017 Chin. Sci. (Informationis) 47 545 (in Chinese)
[5] Yuan H, Wang C, Li Y, Liu N, Cui G 2016 International Symposium on Antennas, Propagation and EM Theory Guilin, China, Oct. 18–21, 2016 p75
[6] 魏仪文 2016 博士学位论文 (西安: 西安电子科技大学)
Wei Y W 2016 Ph. D. Dissertation (Xi'an: Xidian University) (in Chinese)
[7] 邵芸, 宫华泽, 田维, 张庆君, 王国军, 卞小林, 张婷婷, 张风丽, 李坤, 刘致曲, 倪崇 2021 遥感学报 25 323Google Scholar
Shao Y, Gong H Z, Tian W, Zhang Q J, Wang G J, Bian X L, Zhang T T, Zhang F L, Li K, Liu Z Q, Ni C 2021 J. Remote. Sens. 25 323Google Scholar
[8] 綦鑫 2019博士学位论文(成都: 电子科技大学)
Qi X 2019 Ph. D. Dissertation (Chengdu: University of Electronic Science and Technology of China)(in Chinese)
[9] Zhang R, Jia P, Hu L 2018 IEEE International Conference on Computational Electromagnetics Chendu, China, March 26–28, 2018 p1
[10] Li B C, Zhang Q Z, Liu H L 2021 2020 15th Symposium on Piezoelectrcity, Acoustic Waves and Device Applications Zhengzhou, China, April 16–19, 2021 p54
[11] Wang Y, Wang J, Yao L 2020 IEEE J. Multiscale and Multiphys. Comput. Techn. 5 273Google Scholar
[12] Zhang Y, Wang P, Li W, Yang S 2019 International Conference on Electromagnetics in Advanced Applications Granada, Spain, Sept 9–13, 2019 p0780
[13] 徐润汶, 郭立新, 范天奇 2013 62 170301Google Scholar
Xu R W, Guo L X, Fan T Q 2013 Acta Phys. Sin. 62 170301Google Scholar
[14] 陈涌频, 聂在平, 胡俊 2008 电子学报 3 562Google Scholar
Chen Y P, Nie Z P, Hu J 2008 Acta Electron. Sin. 3 562Google Scholar
[15] Sommerfeld A 1909 Ann. Phys. 28 665
[16] Weyl H 1919 Ann. Phys. 365 481Google Scholar
[17] Siegel M, King R 1971 IEEE Trans. Antennas. Propag. 19 477Google Scholar
[18] Xu X B, Butler C 1986 IEEE Trans. Antennas. Propag. 34 880Google Scholar
[19] Stratton I A 1941 Electromagnetic Theory (New York: Mc Graw-Hill Book Company)
[20] Michalski K A, Zheng D 1990 IEEE Trans. Antennas. Propag. 38 335Google Scholar
[21] Vitebskiy S, Carin L 1995 IEEE Trans. Antennas. Propag. 43 1303
[22] Geng N, Sullivan A, Carin L 2000 IEEE Trans. Geosci. Remote Sens. 38 1561Google Scholar
[23] Yang J J, Chow Y L, Fang D G 1991 IEEE Trans. Antennas. Propag. 138 319
[24] Aksun M I 1996 IEEE Trans. Microw. Theory Techn. 44 651Google Scholar
[25] Yuan M T, Sarkar T K, Salazar-Palma M 2006 IEEE Trans. Microw. Theory Techn. 5 1025
[26] Zhuang L, Zhu G Q, Zhang Y H 2007 IEEE Microw. Wireless Compon. Lett. 49 1337
[27] 潘锦, 文希理 1996 地球 s1 400
Pan J, Wen X L 1996 Chin. J. Geophys. s1 400 (in Chinese)
[28] 胡俊, 聂在平 1998 电子学报 3 126Google Scholar
Hu J, Nie Z P 1998 Acta Electron. Sin. 3 126Google Scholar
[29] Song Z, Zhou H, Zheng K, Hu J, Li W, Hong W 2013 IEEE Antennas. Propag. Mag. 55 92Google Scholar
[30] Wu B, Sheng X A 2015 IEEE Trans. Antennas. Propag. 63 3727Google Scholar
[31] Burke G, Miller E 1984 IEEE Trans. Antennas. Propag. 32 1040Google Scholar
[32] Eskelinen P 2002 IEEE Aerosp. Electr. Syst. Mag. 17 41Google Scholar
[33] Chen J Y, Kishk A A, Glisson A W 2000 Electromagnetics 20 1Google Scholar
[34] 罗万 2016 博士学位论文 (成都: 电子科技大学)
Luo W 2016 Ph. D. Dissertation (Chengdu: University of Electronic Science and Technology of China) (in Chinese)
[35] 胡云琴 2012 博士学位论文 (南京: 南京理工大学)
Hu Y Q 2012 Ph. D. Dissertation (Nanjing: Nanjing University of Science and Technology) (in Chinese)
[36] 张民, 李乐伟, 李良超, 吴振森 2008 中国科学 2 298
Zhang M, Li L W, Li L C, Wu Z S 2008 Chin. Sci. 2 298
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