电流重构算法采用FFT迭代法和晶格谱法

D. Sánchez-Escuderos, M. Baquero-Escudero, F. Vico-Bondia, V. Rodrigo-Penarrocha
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引用次数: 3

摘要

天线等效电流的知识可能成为其设计过程中最重要的方面之一。这个信息可以通过知道从天线的辐射场获得的电流来获得。由于这通常是在近场区域测量的,因此有必要获得近场和等效电流之间的关系。基本上,前一篇文章描述的过程是从近场测量中获得远场,并用远场计算平面波频谱。如果遵循这个过程,可实现的最大分辨率是1 lambda。如此低的分辨率的原因是只使用可见光谱。然而,我们需要这种不可见光谱来获得更好的分辨率。为此,本文提出了两种技术相结合的方法来获取非可见光谱。这些技术是fft迭代法,第二种技术是利用光谱的晶格来改进结果。两者的使用大大提高了重建的分辨率
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Algorithm for currents reconstruction using the FFT iterative method and a lattice of the spectrum
The knowledge of the equivalent currents of an antenna could become one of the most important aspects during its design process. This information can be obtained by knowing the currents obtained from the radiated field of the antenna. As this is usually measured in the near field region, is necessary to obtain a relationship between near field and equivalent currents. Basically, the process described in a previous paper obtains the far field from the near field measurements and with this far field calculates the plane wave spectrum. If this process is followed the maximum resolution achievable is 1 lambda. The reason for such a poor resolution is the use of only the visible spectrum. However, we need this non-visible spectrum to achieve a better resolution. For this reason we propose in this paper the combination of two techniques to obtain the non-visible spectrum. These techniques are the fft iterative method and the second technique is using the lattice of the spectrum to improve results. The use of both increases considerably the resolution of the reconstruction
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