Advances in cylindrical Mathematical Absorber Reflection Suppression

In many instances, reflections within antenna test ranges constitute the largest single component within the facility-level error budget. For some time, a frequency domain measurement and post-processing technique named Mathematical Absorber Reflection Suppression (MARS) has been successfully used t...

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Hauptverfasser:	Gregson, S F, Newell, A C, Hindman, G E, Carey, M J
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Sprache:	eng
Schlagworte:	Antenna accessories Antenna measurements Frequency domain analysis Frequency measurement Mars Measurement techniques Reflection Reflector antennas Testing Time measurement
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creator	Gregson, S F Newell, A C Hindman, G E Carey, M J
description	In many instances, reflections within antenna test ranges constitute the largest single component within the facility-level error budget. For some time, a frequency domain measurement and post-processing technique named Mathematical Absorber Reflection Suppression (MARS) has been successfully used to reduce range multi-path effects within spherical near-field and far-field antenna measurement systems. More recently, a related technique has been developed for use with cylindrical near-field antenna measurement systems. This paper provides an introduction to the measurement technique and novel probe pattern corrected near-field to far-field transform algorithm. It then presents the most recent results of an ongoing validation campaign detailing a number of the most recent advances which are found to yield improvements comparable to those attained with the corresponding spherical MARS technique. The results are discussed and conclusions presented.
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subjects	Antenna accessories Antenna measurements Frequency domain analysis Frequency measurement Mars Measurement techniques Reflection Reflector antennas Testing Time measurement
title	Advances in cylindrical Mathematical Absorber Reflection Suppression
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