Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors

Trent Jansen-Sturgeon; Benjamin A.D. Hartig; Gregory J. Madsen; Philip A. Bland; Eleanor K. Sansom; Hadrien A.R. Devillepoix; Robert M. Howie; Martin Cupák; Martin C. Towner; Morgan A. Cox; Nicole D. Nevill; Zacchary N.P. Hoskins; Geoffrey P. Bonning; Josh Calcino; Jake T. Clark; Bryce M. Henson; Andrew Langendam; Samuel J. Matthews; Terence P. McClafferty; Jennifer T. Mitchell; Craig J. O'Neill; Luke T. Smith; Alastair W. Tait

doi:10.1017/pasa.2020.36

Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors

Trent Jansen-Sturgeon, Benjamin A.D. Hartig, Gregory J. Madsen, Philip A. Bland, Eleanor K. Sansom, Hadrien A.R. Devillepoix, Robert M. Howie, Martin Cupák, Martin C. Towner, Morgan A. Cox, Nicole D. Nevill, Zacchary N.P. Hoskins, Geoffrey P. Bonning, Josh Calcino, Jake T. Clark, Bryce M. Henson, Andrew Langendam, Samuel J. Matthews, Terence P. McClafferty, Jennifer T. MitchellCraig J. O'Neill, Luke T. Smith, Alastair W. Tait

Research output: Contribution to journal › Article › peer-review

Abstract

Optical tracking systems typically trade off between astrometric precision and field of view. In this work, we showcase a networked approach to optical tracking using very wide field-of-view imagers that have relatively low astrometric precision on the scheduled OSIRIS-REx slingshot manoeuvre around Earth on 22 Sep 2017. As part of a trajectory designed to get OSIRIS-REx to NEO 101955 Bennu, this flyby event was viewed from 13 remote sensors spread across Australia and New Zealand to promote triangulatable observations. Each observatory in this portable network was constructed to be as lightweight and portable as possible, with hardware based off the successful design of the Desert Fireball Network. Over a 4-h collection window, we gathered 15 439 images of the night sky in the predicted direction of the OSIRIS-REx spacecraft. Using a specially developed streak detection and orbit determination data pipeline, we detected 2 090 line-of-sight observations. Our fitted orbit was determined to be within about 10 km of orbital telemetry along the observed 109 262 km length of OSIRIS-REx trajectory, and thus demonstrating the impressive capability of a networked approach to Space Surveillance and Tracking.

Original language	English
Article number	e049
Pages (from-to)	1-10
Number of pages	10
Journal	Publications of the Astronomical Society of Australia
Volume	37
DOIs	https://doi.org/10.1017/pasa.2020.36
Publication status	Published - 27 Nov 2020

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Jansen-Sturgeon, T., Hartig, B. A. D., Madsen, G. J., Bland, P. A., Sansom, E. K., Devillepoix, H. A. R., Howie, R. M., Cupák, M., Towner, M. C., Cox, M. A., Nevill, N. D., Hoskins, Z. N. P., Bonning, G. P., Calcino, J., Clark, J. T., Henson, B. M., Langendam, A., Matthews, S. J., McClafferty, T. P., ... Tait, A. W. (2020). Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors. Publications of the Astronomical Society of Australia, 37, 1-10. [e049]. https://doi.org/10.1017/pasa.2020.36

@article{e41c7e3d8f5f47d7866ad4ff604d9d47,

title = "Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors",

abstract = "Optical tracking systems typically trade off between astrometric precision and field of view. In this work, we showcase a networked approach to optical tracking using very wide field-of-view imagers that have relatively low astrometric precision on the scheduled OSIRIS-REx slingshot manoeuvre around Earth on 22 Sep 2017. As part of a trajectory designed to get OSIRIS-REx to NEO 101955 Bennu, this flyby event was viewed from 13 remote sensors spread across Australia and New Zealand to promote triangulatable observations. Each observatory in this portable network was constructed to be as lightweight and portable as possible, with hardware based off the successful design of the Desert Fireball Network. Over a 4-h collection window, we gathered 15 439 images of the night sky in the predicted direction of the OSIRIS-REx spacecraft. Using a specially developed streak detection and orbit determination data pipeline, we detected 2 090 line-of-sight observations. Our fitted orbit was determined to be within about 10 km of orbital telemetry along the observed 109 262 km length of OSIRIS-REx trajectory, and thus demonstrating the impressive capability of a networked approach to Space Surveillance and Tracking. ",

keywords = "Desert Fireball Network, FireOPAL, networked space situational awareness, orbit determination, OSIRIS-REx, streak detection, telemetry comparison, triangulation",

author = "Trent Jansen-Sturgeon and Hartig, {Benjamin A.D.} and Madsen, {Gregory J.} and Bland, {Philip A.} and Sansom, {Eleanor K.} and Devillepoix, {Hadrien A.R.} and Howie, {Robert M.} and Martin Cup{\'a}k and Towner, {Martin C.} and Cox, {Morgan A.} and Nevill, {Nicole D.} and Hoskins, {Zacchary N.P.} and Bonning, {Geoffrey P.} and Josh Calcino and Clark, {Jake T.} and Henson, {Bryce M.} and Andrew Langendam and Matthews, {Samuel J.} and McClafferty, {Terence P.} and Mitchell, {Jennifer T.} and O'Neill, {Craig J.} and Smith, {Luke T.} and Tait, {Alastair W.}",

year = "2020",

month = nov,

day = "27",

doi = "10.1017/pasa.2020.36",

language = "English",

volume = "37",

pages = "1--10",

journal = "Publications of the Astronomical Society of Australia",

issn = "1323-3580",

publisher = "Cambridge University Press",

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Jansen-Sturgeon, T, Hartig, BAD, Madsen, GJ, Bland, PA, Sansom, EK, Devillepoix, HAR, Howie, RM, Cupák, M, Towner, MC, Cox, MA, Nevill, ND, Hoskins, ZNP, Bonning, GP, Calcino, J, Clark, JT, Henson, BM, Langendam, A, Matthews, SJ, McClafferty, TP, Mitchell, JT, O'Neill, CJ, Smith, LT & Tait, AW 2020, 'Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors', Publications of the Astronomical Society of Australia, vol. 37, e049, pp. 1-10. https://doi.org/10.1017/pasa.2020.36

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T1 - Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors

AU - Jansen-Sturgeon, Trent

AU - Hartig, Benjamin A.D.

AU - Madsen, Gregory J.

AU - Bland, Philip A.

AU - Sansom, Eleanor K.

AU - Devillepoix, Hadrien A.R.

AU - Howie, Robert M.

AU - Cupák, Martin

AU - Towner, Martin C.

AU - Cox, Morgan A.

AU - Nevill, Nicole D.

AU - Hoskins, Zacchary N.P.

AU - Bonning, Geoffrey P.

AU - Calcino, Josh

AU - Clark, Jake T.

AU - Henson, Bryce M.

AU - Langendam, Andrew

AU - Matthews, Samuel J.

AU - McClafferty, Terence P.

AU - Mitchell, Jennifer T.

AU - O'Neill, Craig J.

AU - Smith, Luke T.

AU - Tait, Alastair W.

PY - 2020/11/27

Y1 - 2020/11/27

N2 - Optical tracking systems typically trade off between astrometric precision and field of view. In this work, we showcase a networked approach to optical tracking using very wide field-of-view imagers that have relatively low astrometric precision on the scheduled OSIRIS-REx slingshot manoeuvre around Earth on 22 Sep 2017. As part of a trajectory designed to get OSIRIS-REx to NEO 101955 Bennu, this flyby event was viewed from 13 remote sensors spread across Australia and New Zealand to promote triangulatable observations. Each observatory in this portable network was constructed to be as lightweight and portable as possible, with hardware based off the successful design of the Desert Fireball Network. Over a 4-h collection window, we gathered 15 439 images of the night sky in the predicted direction of the OSIRIS-REx spacecraft. Using a specially developed streak detection and orbit determination data pipeline, we detected 2 090 line-of-sight observations. Our fitted orbit was determined to be within about 10 km of orbital telemetry along the observed 109 262 km length of OSIRIS-REx trajectory, and thus demonstrating the impressive capability of a networked approach to Space Surveillance and Tracking.

AB - Optical tracking systems typically trade off between astrometric precision and field of view. In this work, we showcase a networked approach to optical tracking using very wide field-of-view imagers that have relatively low astrometric precision on the scheduled OSIRIS-REx slingshot manoeuvre around Earth on 22 Sep 2017. As part of a trajectory designed to get OSIRIS-REx to NEO 101955 Bennu, this flyby event was viewed from 13 remote sensors spread across Australia and New Zealand to promote triangulatable observations. Each observatory in this portable network was constructed to be as lightweight and portable as possible, with hardware based off the successful design of the Desert Fireball Network. Over a 4-h collection window, we gathered 15 439 images of the night sky in the predicted direction of the OSIRIS-REx spacecraft. Using a specially developed streak detection and orbit determination data pipeline, we detected 2 090 line-of-sight observations. Our fitted orbit was determined to be within about 10 km of orbital telemetry along the observed 109 262 km length of OSIRIS-REx trajectory, and thus demonstrating the impressive capability of a networked approach to Space Surveillance and Tracking.

KW - Desert Fireball Network

KW - FireOPAL

KW - networked space situational awareness

KW - orbit determination

KW - OSIRIS-REx

KW - streak detection

KW - telemetry comparison

KW - triangulation

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U2 - 10.1017/pasa.2020.36

DO - 10.1017/pasa.2020.36

M3 - Article

AN - SCOPUS:85097175368

VL - 37

SP - 1

EP - 10

JO - Publications of the Astronomical Society of Australia

JF - Publications of the Astronomical Society of Australia

SN - 1323-3580

M1 - e049

ER -

Recreating the OSIRIS-REx slingshot manoeuvre from a network of ground-based sensors

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