Marcos R. Pino scite author profile

A technique for the determination of the equivalent currents distribution from a known radiated field is described. This Inverse Radiation Problem is solved through an Integral Equation algorithm that allows the characterization of antennas of complex geometry both for near field to far field (NF-FF) transformation purposes as well as for diagnostic tasks. The algorithm is based on the representation of the radiating structure by means of a set of equivalent currents over a three-dimensional (3-D) surface that can be fitted to the arbitrary geometry of the antenna. The innovative formulation uses an integral equation involving the electric field due to the currents tangential components to the represented antenna 3-D surface. For that purpose, both the magnetic and electric equivalent currents are considered in the integral equations. Regularization techniques are also introduced to improve the convergence of the proposed iterative solution. The paper concludes with several results related to the practical verification of the Equivalence Principle and the characterization of a horn antenna.Index Terms-Equivalence principle, equivalent sources, integral equations, inverse radiation problem, near-field far-field transformation (NF-FF).

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The sources reconstruction method for amplitude-only field measurements

Álvarez

Las-Heras

Pino

2010

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Solution of Electrically Large Problems With Multilevel Characteristic Basis Functions

Laviada

Las-Heras

Pino

et al. 2009

IEEE Trans. Antennas Propagat.

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An Improved Super-Resolution Source Reconstruction Method

Lopez

Las-Heras

Pino

et al. 2009

IEEE Trans. Instrum. Meas.

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On the Comparison Between the Spherical Wave Expansion and the Sources Reconstruction Method

Álvarez

Las-Heras

Pino

2008

IEEE Trans. Antennas Propagat.

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Marcos R. Pino

Reconstruction of Equivalent Currents Distribution Over Arbitrary Three-Dimensional Surfaces Based on Integral Equation Algorithms

The sources reconstruction method for amplitude-only field measurements

Solution of Electrically Large Problems With Multilevel Characteristic Basis Functions

An Improved Super-Resolution Source Reconstruction Method

On the Comparison Between the Spherical Wave Expansion and the Sources Reconstruction Method

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