Antenna Modeling Using Sparse Infinitesimal Dipoles Based on Recursive Convex Optimization

Infinitesimal dipole modeling (IDM) can model antennas analytically with small amounts of data. Constrained IDM has been proposed to improve the modeling efficiency by fixing the positions and orientations of the dipole elements. The restrictions have a tradeoff of the modeling requiring more dipole...

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Veröffentlicht in:	IEEE antennas and wireless propagation letters 2018-04, Vol.17 (4), p.662-665
Hauptverfasser:	Yang, Sung Jun, Kim, Young Dam, Yun, Dal Jae, Yi, Dong Woo, Myung, Noh Hoon
Format:	Artikel
Sprache:	eng
Schlagworte:	Antenna arrays Antenna near field Antenna radiation patterns Convex functions convex optimization Degradation Dipole antennas infinitesimal dipole modeling (IDM) Optimization Slot antennas
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container_title	IEEE antennas and wireless propagation letters
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creator	Yang, Sung Jun Kim, Young Dam Yun, Dal Jae Yi, Dong Woo Myung, Noh Hoon
description	Infinitesimal dipole modeling (IDM) can model antennas analytically with small amounts of data. Constrained IDM has been proposed to improve the modeling efficiency by fixing the positions and orientations of the dipole elements. The restrictions have a tradeoff of the modeling requiring more dipole elements. Therefore, the modeling technique has the disadvantage of having low practicality. A recursive convex optimization based on reweighted l 1 -norm is proposed for sparse IDM. By applying the reweighted l 1 -norm to the convex optimization, the IDM can represent sparse solutions. Antennas can be modeled with dipole elements less than half of the previous constrained IDM. For verification, a five-patch array antenna and a slot array antenna are modeled by the proposed IDM scheme. About 57% and 45% of the dipole elements can be respectively suppressed using the proposed algorithm, with only 1 dB degradation in modeling accuracy.
doi_str_mv	10.1109/LAWP.2018.2810289
format	Article
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Constrained IDM has been proposed to improve the modeling efficiency by fixing the positions and orientations of the dipole elements. The restrictions have a tradeoff of the modeling requiring more dipole elements. Therefore, the modeling technique has the disadvantage of having low practicality. A recursive convex optimization based on reweighted l 1 -norm is proposed for sparse IDM. By applying the reweighted l 1 -norm to the convex optimization, the IDM can represent sparse solutions. Antennas can be modeled with dipole elements less than half of the previous constrained IDM. For verification, a five-patch array antenna and a slot array antenna are modeled by the proposed IDM scheme. 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subjects	Antenna arrays Antenna near field Antenna radiation patterns Convex functions convex optimization Degradation Dipole antennas infinitesimal dipole modeling (IDM) Optimization Slot antennas
title	Antenna Modeling Using Sparse Infinitesimal Dipoles Based on Recursive Convex Optimization
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