&lt;title&gt;Photometric measurements of deep space satellites&lt;/title&gt;

Sanchez, Darryl J.; Gregory, S. A.; Werling, Deborah; Payne, Tamara; Kann, Lee; Finkner, Lyle G.; Payne, Don M.; Davis, Carol K.

doi:10.1117/12.405774

Cited by 9 publications

(2 citation statements)

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“…Having real-time data on each GEO satellite all night long, every night, would be the most ideal scenario for many SSA applications. All-night data on GEO satellites have been leveraged to show unique identification [11,12] and to learn details of the payload and solar panel operation life cycle of the satellite [13,14]. Maneuvers can also be estimated from these data [15,16].…”

Section: Introductionmentioning

confidence: 99%

Stingray Sensor System for Persistent Survey of the GEO Belt

Campbell,

Battle,

Gray

et al. 2024

Sensors

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The Stingray sensor system is a 15-camera optical array dedicated to the nightly astrometric and photometric survey of the geosynchronous Earth orbit (GEO) belt visible above Tucson, Arizona. The primary scientific goal is to characterize GEO and near-GEO satellites based on their observable properties. This system is completely autonomous in both data acquisition and processing, with human oversight reserved for data quality assurance and system maintenance. The 15 ZWO ASI1600MM Pro cameras are mated to Sigma 135 mm f/1.8 lenses and are controlled simultaneously by four separate computers. Each camera is fixed in position and observes a 7.6-by-5.8-degree portion of the GEO belt, for a total of a 114-by-5.8-degree field of regard. The GAIA DR2 star catalog is used for image astrometric plate solution and photometric calibration to GAIA G magnitudes. There are approximately 200 near-GEO satellites on any given night that fall within the Stingray field of regard, and all those with a GAIA G magnitude brighter than approximately 15.5 are measured by the automated data reduction pipeline. Results from an initial one-month survey show an aggregate photometric uncertainty of 0.062 ± 0.008 magnitudes and astrometric accuracy consistent with theoretical sub-pixel centroid limits. Provided in this work is a discussion of the design and function of the system, along with verification of the initial survey results.

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Section: Introductionmentioning

confidence: 99%

Stingray Sensor System for Persistent Survey of the GEO Belt

Campbell,

Battle,

Gray

et al. 2024

Sensors

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“…We chose a visible magnitude of 13.5 and colors based on Sanchez et al (2000). 2 The design is a passive imaging system and is scalable; increasing the resolution by a factor of 5 requires a bigger structure and more telescopes but no new technology. It is always difficult to estimate sensitivity of a complicated optical system.…”

Section: Introductionmentioning

confidence: 99%

An imaging interferometer for compact sources

et al. 2011

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This paper presents the results of a study designed to test the feasibility of imaging satellites in geostationary orbit from the ground. We argue that the instrument should be an interferometer consisting of > 30 telescopes mounted on a common, steerable boom. Light from the telescopes is fed to the beam combiner with optical fibers. The delays are equalized by steering the boom and stretching the fibers. The feed system and delay lines are replaced with single mode fibers.This system should be better throughput than the optical interferometers in use today and should be able to reach the sensitivity needed to image these targets with meter-scale telescopes. Calculations supporting this claim and a system design are presented.

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Investigations of associated multi-band observations for GEO space debris

Zhang

Sun

et al. 2017

Advances in Space Research

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<title>Photometric measurements of deep space satellites</title>

Cited by 9 publications

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Stingray Sensor System for Persistent Survey of the GEO Belt

Stingray Sensor System for Persistent Survey of the GEO Belt

An imaging interferometer for compact sources

Investigations of associated multi-band observations for GEO space debris

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