无线技术应用的高阶电磁建模

B. Notaroš, M. Djordjević, M. Ilić
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引用次数: 2

摘要

本文介绍了用于无线技术应用的新型高阶电磁(EM)建模技术的发展。这些技术基于矩量法(MoM)、有限元法(FEM)和物理光学(PO)。现代无线系统涉及电子大型电磁结构(天线、电路和组件),这些结构在几何形状和材料组成上都非常复杂。显然,在昂贵的原型开发之前,需要先进的分析和设计工具来预测这种结构的性能和优化参数。此外,需要EM工具进行室内和室外传播建模,评估EM与人体的相互作用等。这些工具必须非常精确和可靠。无线设计人员还要求仿真技术速度快,并能在相对较小的计算平台上运行,比如标准台式电脑。一般来说,MoM对于开放区域(如天线/散射)问题的建模非常有效,而FEM对于封闭区域(如波导/腔)问题的建模是一个很好的选择。最后,对于电流变化缓慢的大表面结构,特别是与MoM杂化时,PO具有极高的成本效益。
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Higher order electromagnetic modeling for wireless technology applications
The paper presents the development of novel higher order electromagnetic (EM) modeling techniques for wireless technology applications. The techniques are based on the method of moments (MoM), finite element method (FEM), and physical optics (PO). Modern wireless systems involve electrically large EM structures (antennas, circuits, and components) that are very complex in both geometry and material composition. There is a clear need for advanced analysis and design tools for predicting the performance and optimizing the parameters of such structures prior to costly prototype development. In addition, EM tools are needed for indoor and outdoor propagation modeling, for assessing EM interactions with human bodies, etc. These tools have to be very accurate and reliable. Wireless designers also demand that the simulation techniques be fast and run on relatively small computing platforms, such as standard desktop PCs. Generally, MoM is very efficient at modeling of open-region (e.g., antenna/scattering) problems, while FEM is an excellent choice for modeling of closed-region (e.g., waveguide/cavity) problems. Finally, PO is extremely cost effective for structures that include electrically very large surfaces with slowly varying currents, especially when hybridized with MoM.
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