Litcius/Paper detail

Accuracy and Conditioning of Surface-Source Based Near-Field to Far-Field Transformations

Jonas Kornprobst, Josef Knapp, Raimund A. M. Mauermayer, Ole Neitz, Alexander Paulus, Thomas F. Eibert

2021IEEE Transactions on Antennas and Propagation29 citationsDOIOpen Access PDF

Abstract

The conditioning and accuracy of various inverse surface-source formulations are investigated. First, the normal systems of equations are discussed. Second, different implementations of the zero-field condition are analyzed regarding their effect on solution accuracy, conditioning, and source ambiguity. The weighting of the Love-current side constraint is investigated in order to provide an accurate problem-independent methodology. The transformation results for simulated and measured near-field data show a comparable behavior regarding accuracy and conditioning for most of the formulations. Advantages of the Love-current solutions are found only in diagnostic capabilities. Regardless of this, the Love side constraint is a computationally costly way to influence the iterative solver threshold, which is more conveniently controlled with the appropriate type of normal equation. The solution behavior of the inverse surface-source formulations is mostly influenced by the choice of the reconstruction surface. A spherical Huygens' surface leads to the best conditioning, whereas the most accurate solutions are found with a tight, possibly convex hull around the antenna under test.

Topics & Concepts

SolverWeightingTransformation (genetics)Inverse problemConstraint (computer-aided design)InverseMathematical optimizationConvex hullIterative methodComputer scienceConditioningAlgorithmConstraint satisfaction problemConvergence (economics)Antenna (radio)Applied mathematicsRegular polygonMathematicsHullSystem of linear equationsControl theory (sociology)Convex optimizationPerspective (graphical)Electromagnetic Compatibility and MeasurementsElectromagnetic Scattering and AnalysisAntenna Design and Optimization