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Accurate numerical models of a given antenna can be derived from measurements using the inverse source technique [1–3]. Using this technique, measured antenna patterns can currently be imported and used as numerical sources in a number of commercial Computational Electromagnetic (CEM) solvers [4–9]. This method has been validated experimentally and the achievable accuracy investigated for both stand-alone...
Electromagnetic models of measured antenna can be accurately computed by the inverse source technique, implemented in the MVG software INSIGHT [1–5]. The measurement processing is based on the expansion of the measured field using equivalent currents [7–10]. A recently created link enable the INSIGHT to export the electromagnetic model to a number of commercial Computational Electromagnetic (CEM)...
Inverse source or equivalent current/source method (EQC) provides an accurate near-field representation of any radiating device in terms of equivalent electric and magnetic currents [1–4]. Starting from measured near or far field data in any measurement configuration, this technique allows to determine an accurate 3D electromagnetic model, maintaining the near field (NF) and far field (FF) properties...
Accurate electromagnetic models of measured antennas are available from the expansion of the measured field using equivalent currents [1–4]. The constructed model is importable in commercial Computational Electromagnetic (CEM) solvers in the form of a Huygens Box [5–9]. In flushmounted antenna applications, the measurement of the antenna sited in a locally relevant scenario and subsequent data processing...
Placement analysis in complex antenna scenarios require accurate computational electromagnetic (CEM) tools. A fundamental requirement to achieve truthful results, is that the source antenna must be accurately modelled. However, in many practical cases, a full-wave representation of the physical antenna is unfeasible or unavailable in the format required by the desired CEM solver. This paper describes...
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