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各类金属载体上线天线的特性分析具有很重要的实用价值。文章取线天线为矩量法区,电大载体为物理光学法区,将载体对线天线的影响用物理光学法电流合并到矩量法区,使矩量法解决天线.载体系统成为可能。结果表明,混合方法能够快速有效地分析电大尺寸载体上多天线系统的辐射特性。 相似文献
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在准确分析目标隐身性能的基础上,对于目标面-线-面结构中导线与导体的连接问题,采用矩量法(MoM)进行分析.通过将结构中的导体与导线离散化,结合Costa基函数,很好地解决了目标面-线-面结构连接域中电流不连续的关键问题,获得了目标结构的矩量解和散射场.最后,通过Matlab编程与HFSS仿真进行比对,计算结果基本吻合,证明了结构中导线的引入使得隐身目标的电磁散射特性发生明显变化,并且验证了MoM法及Costa基函数在面-线-面结构散射场计算中的有效性和准确性,为隐身目标复杂结构散射特性研究提供了一种新的计算方法. 相似文献
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针对复合开放闭合结构电磁散射问题的矩量法求解,通过修改混合场积分方程的建立方式,将混合场积分方程扩展应用到这类开放结构,大大提高了求解效率,数值算例证明了该方法的精度和效率。 相似文献
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Lianlin Li Fang Li 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
Two models of ionosphere tomography based on spaceborne SAR (Synthetic Aperture Radar) are proposed. For HF-SAR the signal with sweeping frequency lower than the characteristic frequency of ionosphere will be scatted during the ionosphere propagation and completely reflected at a corresponding height. The ionospheric electron density isolines looked as series of random surfaces can be reconstructed from the HF-SAR echoes by using the inverse scattering technique for layered rough surfaces and the method of moment (MoM). The numerical simulation show that due to the MoM can provide a full wave solution, the ionosphere tomography with high resolution can be obtained as long as enough sampling data of HF-SAR echoes are used. For VHF/UHF/P/L-band SAR the TEC (Total Electron Content) can be obtained from the SAR echoes scattered by some strong point targets (such as the calibrators, etc.) appeared in the SAR imaged ground region, and the ionosphere tomography can be performed by CT technique. 相似文献
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