J. Borg scite author profile

J. Borg

5Publications

33Citation Statements Received

15Citation Statements Given

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Affiliations

University of Malta, Institute of Radio Astronomy

Publications

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The Aperture Array Verification System 1: System overview and early commissioning results

Benthem

Wayth

Acedo

et al. 2021

A&A

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The design and development process for the Square Kilometre Array (SKA) radio telescope's Low Frequency Aperture Array component was progressed during the SKA pre-construction phase by an international consortium, with the goal of meeting requirements for a critical design review. As part of the development process a full-sized prototype SKA Low 'station' was deployed -the Aperture Array Verification System 1 (AAVS1). We provide a system overview and describe the commissioning results of AAVS1, which is a low frequency radio telescope with 256 dual-polarisation log-periodic dipole antennas working as a phased array. A detailed system description is provided, including an in-depth overview of relevant sub-systems, ranging from hardware, firmware, software, calibration, and control sub-systems. Early commissioning results cover initial bootstrapping, array calibration, stability testing, beam-forming, and on-sky sensitivity validation. Lessons learned are presented, along with future developments.

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On-sky calibration of a SKA1-low station in the presence of mutual coupling

Borg

Magro

Adami

et al. 2020

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ABSTRACT This paper deals with the calibration of the analogue chains of a Square Kilometre Array (SKA) phased aperture array station, using embedded element patterns (one per antenna in the array, thus accounting for the full effects of mutual coupling) or average element patterns to generate model visibilities. The array is composed of 256 log-periodic dipole array antennas. A simulator capable of generating such per-baseline model visibility correlation matrices was implemented, which allowed for a direct comparison of calibration results using Statistically Efficient and Fast Calibration (StEFCal) with both pattern types. Calibrating the array with StEFCal using simulator-generated model visibilities was successful and thus constitutes a possible routine for calibration of an SKA phase aperture array station. In addition, results indicate that there was no significant advantage in calibrating with embedded element patterns, with StEFCal successfully retrieving similar per-element coefficients with model visibilities generated with either pattern type. This can be of significant importance for mitigating computational costs for calibration, particularly for the consideration of real-time calibration strategies. Data from the Aperture Array Verification System 1 prototype station in Western Australia was used for demonstration purposes.

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The Multibeam Radar Sensor BIRALES: Performance Assessment for Space Surveillance and Tracking

Losacco

Lizia

Massari

et al. 2019

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Near-Earth space has become progressively more crowded in active satellites, inactive spacecraft and debris. Consequently, an international effort is currently being devoted to improving the performance of the network of optical and radar sensors for space objects monitoring. Within this framework, the use of the novel bistatic radar sensor BIRALES is investigated in this work. The tailored orbit determination algorithm is described, with a detailed description of the transiting object trace definition method. The second part of the work illustrates the results achieved with both numerical simulations and observation campaigns. The sensor performance is assessed considering both cases of known and unknown objects. For all cases, the effect of measurement noise on each single available measurement is investigated. Finally, the results achieved during satellite Tiangong-1 re-entry observation campaign are shown.

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Digitizing MEXART — System Overview and Verification

Magro

Borg

Chiello

et al. 2021

J. Astron. Instrum.

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The Mexican Array Radio Telescope (MEXART), located in the state of Michoacan in Mexico, has been operating in an analog fashion, utilizing a Butler Matrix to generate fixed beams on the sky, since its inception. Calibrating this instrument has proved difficult, leading to loss in sensitivity. It was also a rigid setup, requiring manual intervention and tuning for different observation requirements. The Radio Frequency (RF) system has now been replaced with a digital one. This digital backend is a hybrid system utilizing both FPGA-based technology and GPU acceleration, and is capable of automatically calibrating the different rows of the array, as well as generating a configurable number of frequency-domain synthesized beams to towards selected locations on the sky. A monitoring and control system, together with a full-featured web-based front-end, has also been developed, greatly simplifying the interaction with the instrument. This paper presents the design, implementation and deployment of the new digital backend, including preliminary analysis of system performance and stability.

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First Observations of the New MEXART's Digital System

González-Esparza

Mejia‐Ambriz

Aguilar-Rodríguez

et al. 2021

Preprint

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J. Borg

The Aperture Array Verification System 1: System overview and early commissioning results

On-sky calibration of a SKA1-low station in the presence of mutual coupling

The Multibeam Radar Sensor BIRALES: Performance Assessment for Space Surveillance and Tracking

Digitizing MEXART — System Overview and Verification

First Observations of the New MEXART's Digital System

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