In-situ far-field phase pattern measurements of a prototype of the Square Kilometre Array known as Aperture Array Verification System 1.5 (AAVS1.5) are reported and discussed. Such phase patterns have been measured using a UAV as flying test source. This paper presents a preliminary analysis of discrepancies between the expected and the reconstructed phase patterns. These discrepancies are attributed to a position offset (with respect to the nominal position) common to all elements belonging to the same subarray. A method that estimates this position shift exploiting a combination of measurements and simulations is presented and applied. The resulting position shift could be due to both non-regularity (non-flatness) of the ground and installation errors.
Understanding phase pattern discrepancies in UAV-based measurements of a SKA-low prototype
Ciorba L;Virone G;Paonessa F;Peverini O A;Addamo G;Lumia M
2022
Abstract
In-situ far-field phase pattern measurements of a prototype of the Square Kilometre Array known as Aperture Array Verification System 1.5 (AAVS1.5) are reported and discussed. Such phase patterns have been measured using a UAV as flying test source. This paper presents a preliminary analysis of discrepancies between the expected and the reconstructed phase patterns. These discrepancies are attributed to a position offset (with respect to the nominal position) common to all elements belonging to the same subarray. A method that estimates this position shift exploiting a combination of measurements and simulations is presented and applied. The resulting position shift could be due to both non-regularity (non-flatness) of the ground and installation errors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
