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Main Authors: Grigg, Dylan, Tingay, Steven, Prabu, Steve, Sokolowski, Marcin, Indermuehle, Balthasar
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.14483
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author Grigg, Dylan
Tingay, Steven
Prabu, Steve
Sokolowski, Marcin
Indermuehle, Balthasar
author_facet Grigg, Dylan
Tingay, Steven
Prabu, Steve
Sokolowski, Marcin
Indermuehle, Balthasar
contents With the low Earth orbit environment becoming increasingly populated with artificial satellites, rockets, and debris, it is important to understand the effects they have on radio astronomy. In this work, we undertake a multi-frequency, multi-epoch survey with two SKA-Low station prototypes located at the SKA-Low site, to identify and characterise radio frequency emission from orbiting objects and consider their impact on radio astronomy observations. We identified 152 unique satellites across multiple passes in low and medium Earth orbits from 1.6 million full-sky images across 13 selected ${\approx}1$ MHz frequency bands in the SKA-Low frequency range, acquired over almost 20 days of data collection. Our algorithms significantly reduce the rate of satellite misidentification, compared to previous work, validated through simulations to be $<1\%$. Notably, multiple satellites were detected transmitting unintended electromagnetic radiation, as well as several decommissioned satellites likely transmitting when the Sun illuminates their solar panels. We test alternative methods of processing data, which will be deployed for a larger, more systematic survey at SKA-Low frequencies in the near future. The current work establishes a baseline for monitoring satellite transmissions, which will be repeated in future years to assess their evolving impact on radio astronomy observations.
format Preprint
id arxiv_https___arxiv_org_abs_2412_14483
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Enhanced detection and identification of satellites using an all-sky multi-frequency survey with prototype SKA-Low stations
Grigg, Dylan
Tingay, Steven
Prabu, Steve
Sokolowski, Marcin
Indermuehle, Balthasar
Earth and Planetary Astrophysics
Instrumentation and Methods for Astrophysics
With the low Earth orbit environment becoming increasingly populated with artificial satellites, rockets, and debris, it is important to understand the effects they have on radio astronomy. In this work, we undertake a multi-frequency, multi-epoch survey with two SKA-Low station prototypes located at the SKA-Low site, to identify and characterise radio frequency emission from orbiting objects and consider their impact on radio astronomy observations. We identified 152 unique satellites across multiple passes in low and medium Earth orbits from 1.6 million full-sky images across 13 selected ${\approx}1$ MHz frequency bands in the SKA-Low frequency range, acquired over almost 20 days of data collection. Our algorithms significantly reduce the rate of satellite misidentification, compared to previous work, validated through simulations to be $<1\%$. Notably, multiple satellites were detected transmitting unintended electromagnetic radiation, as well as several decommissioned satellites likely transmitting when the Sun illuminates their solar panels. We test alternative methods of processing data, which will be deployed for a larger, more systematic survey at SKA-Low frequencies in the near future. The current work establishes a baseline for monitoring satellite transmissions, which will be repeated in future years to assess their evolving impact on radio astronomy observations.
title Enhanced detection and identification of satellites using an all-sky multi-frequency survey with prototype SKA-Low stations
topic Earth and Planetary Astrophysics
Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2412.14483