An Efficient Hybrid Algorithm Combining Skeletonization MoM-PO and EDM for Solving Electromagnetic Radiation of Large-Scale Targets

The Method of Moments-Physical Optics (MoM-PO) algorithm, when applied to antenna arrays or antennas with complex surrounding structures, leads to a significant increase in the number of unknowns in the MoM region, resulting in higher memory consumption and reduced computational efficiency. To addre...

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Published in	IEEE transactions on antennas and propagation p. 1
Main Authors	Ma, Xianggang, Wang, Xing, Liu, Chunheng, Xu, Zhou, Wu, Jiahui, Liu, Ying
Format	Journal Article
Language	English
Published	IEEE 2025
Subjects	Computational efficiency Couplings equivalent dipole moment Impedance Interpolation large-scale targets Matrix decomposition Method of moments method of moments-physical optics Optical surface waves Partitioning algorithms Skeleton skeleton basis functions Skeletonization method Surface impedance
Online Access	Get full text
ISSN	0018-926X 1558-2221
DOI	10.1109/TAP.2025.3596315

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Abstract	The Method of Moments-Physical Optics (MoM-PO) algorithm, when applied to antenna arrays or antennas with complex surrounding structures, leads to a significant increase in the number of unknowns in the MoM region, resulting in higher memory consumption and reduced computational efficiency. To address this issue, a novel hybrid numerical method combining the skeletonization MoM-PO and Equivalent Dipole Moment (SKE-PO-EDM) is proposed for efficient electromagnetic radiation analysis of antennas mounted on electrically large structures. By utilizing the interpolation decomposition (ID) method, the skeleton basis functions for both the MoM and PO regions are derived separately, and the far-field interactions are compressed into the coupling between the skeleton basis functions. In addition to the self-impedance matrix and mutual-impedance matrix, the hybrid scheme introduces an innovative skeleton extraction technique suitable for the coupling matrix. After extracting the skeleton basis functions, the calculation of the impedance matrix elements is subsequently accelerated by EDM. Several numerical results show that the proposed approach significantly reduces both computation time and memory usage, while maintaining high accuracy.
AbstractList	The Method of Moments-Physical Optics (MoM-PO) algorithm, when applied to antenna arrays or antennas with complex surrounding structures, leads to a significant increase in the number of unknowns in the MoM region, resulting in higher memory consumption and reduced computational efficiency. To address this issue, a novel hybrid numerical method combining the skeletonization MoM-PO and Equivalent Dipole Moment (SKE-PO-EDM) is proposed for efficient electromagnetic radiation analysis of antennas mounted on electrically large structures. By utilizing the interpolation decomposition (ID) method, the skeleton basis functions for both the MoM and PO regions are derived separately, and the far-field interactions are compressed into the coupling between the skeleton basis functions. In addition to the self-impedance matrix and mutual-impedance matrix, the hybrid scheme introduces an innovative skeleton extraction technique suitable for the coupling matrix. After extracting the skeleton basis functions, the calculation of the impedance matrix elements is subsequently accelerated by EDM. Several numerical results show that the proposed approach significantly reduces both computation time and memory usage, while maintaining high accuracy.
Author	Ma, Xianggang Wang, Xing Liu, Chunheng Liu, Ying Xu, Zhou Wu, Jiahui
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SubjectTerms	Computational efficiency Couplings equivalent dipole moment Impedance Interpolation large-scale targets Matrix decomposition Method of moments method of moments-physical optics Optical surface waves Partitioning algorithms Skeleton skeleton basis functions Skeletonization method Surface impedance
Title	An Efficient Hybrid Algorithm Combining Skeletonization MoM-PO and EDM for Solving Electromagnetic Radiation of Large-Scale Targets
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