Near-Earth Asteroid Scout

Near-Earth Asteroid Scout
NEA Scout concept: a controllable CubeSat solar sail spacecraft
NamesNEA Scout
Mission typeTechnology demonstrator, Reconnaissance
OperatorNASA
COSPAR ID2022-156H Edit this at Wikidata
SATCAT no.57684
Mission duration2.5 years (planned)
2 days (final)
Spacecraft properties
Spacecraft typeCubeSat
Bus6U CubeSat
Launch mass14 kg (31 lb) [1]
Dimensions10 cm × 20 cm × 30 cm (3.9 in × 7.9 in × 11.8 in)
Solar sail: 85 m2 (910 sq ft) [2]
Start of mission
Launch date16 November 2022, 06:47:44 UTC[3]
RocketSLS Block 1
Launch siteKSC, LC-39B[4]
ContractorNASA
End of mission
Last contactNever established
Orbital parameters
Reference systemHeliocentric orbit
Transponders
BandX-band
TWTA power2 watts

NEA Scout Mission Patch

The Near-Earth Asteroid Scout (NEA Scout) was a mission by NASA to develop a controllable low-cost CubeSat solar sail spacecraft capable of encountering near-Earth asteroids (NEA).[5][6] NEA Scout was one of ten CubeSats launched into a heliocentric orbit on Artemis 1, the maiden flight of the Space Launch System, on 16 November 2022.[3][7]

The target for the mission was asteroid 2020 GE,[8] but this could have changed based on launch date or other factors.[9] After deployment, NEA Scout was to perform a series of lunar flybys to achieve optimum departure trajectory before beginning its two-year-long cruise.

No contact with the spacecraft was ever made, and the mission was lost.[10]

Overview

The mission was funded by NASA's Human Exploration and Operations Mission Directorate. Near-Earth asteroids (NEAs) are of interest to science, and as NASA continues to refine its plans to possibly explore these small objects with human explorers, initial reconnaissance with inexpensive robotic precursors is necessary to minimize risks, and inform the required instruments for future reconnaissance missions. The characterization of NEAs that are larger than 20 m (66 ft) in diameter is also of great relevance to plan mitigation strategies for planetary defense.[6]

NASA's Marshall Space Flight Center (MSFC) and Jet Propulsion Laboratory (JPL) jointly developed this mission with support from NASA's Goddard Space Flight Center (GSFC), Lyndon B. Johnson Space Center (JSC), Langley Research Center (LRC), and NASA Headquarters.[5] The principal investigator (science) was Julie Castillo-Rogez from NASA's JPL. The principal investigator was Les Johnson from NASA MSFC.

Goal

The NASA Near Earth Asteroid (NEA) Scout mission was going to demonstrate the capability of an extremely small spacecraft, propelled by a solar sail, to perform reconnaissance of an asteroid at low cost. The goal was to develop a capability that would close knowledge gaps at a near-Earth asteroid in the 1–100 m range.[6][11][12] NEAs in the 1–100 m range are poorly characterized due to the challenges that come with detecting, observing, and tracking these for extended periods of time. It has been thought that objects in the 1–100 m size range are fragments of bigger objects. However, it has also been suggested that these objects could actually be rubble piles.[6]

The mission researchers argued that "characterization of NEAs that are larger than 20 m in diameter is also of great relevance to inform mitigation strategies for planetary defense".

Target

The planned target was near-Earth asteroid 2020 GE.[8] The asteroid made a close approach to Earth in September 2023 of around 5.7 million kilometres, which was when NEA Scout was scheduled to make its flyby.[8] The spacecraft would have approached the asteroid at less than a mile distant, and make the slowest flyby of any asteroid by any spacecraft at less than 30 m/s. A 14 megapixel camera, the mission's sole instrument, was going to image the object at very high resolutions of up to 10 cm/pixel.

2020 GE is no more than 18 meters across, and would have been the smallest object yet explored by spacecraft.[8]

Status

As of 17 November 2022, NEA Scout was one of two out of the ten cubesats released by Artemis I whose status remained unknown.[13] Communications with the spacecraft had not been established as of 18 November 2022, two days after launch.[14]

As of December 2022, NEA Scout was considered lost, after deployment of its solar sail had failed and contact could not be established.[10]

Payload

Observations would have been achieved using a CubeSat performing a close (~10 km) flyby, equipped with a high resolution science-grade monochromatic camera to measure the physical properties of a near-Earth object. The camera was a custom JPL design.[15] The electronics were based on the context camera design for the Orbiting Carbon Observatory 3 (OCO3) instrument[16] with a custom firmware, a ruggedized commercial lens and a fully re-designed enclosure.[15] The measurements to be addressed included target's accurate positioning (position and prediction), rotation rate and pole position, mass, density, mapping of particles and debris field in target vicinity, albedo and asteroid spectral type, surface morphologies and properties, and regolith properties.[6] The mission used NASA's Deep Space Network as the primary component for communications and tracking.[6]

Design

Components of the NEA Scout

The spacecraft architecture, first presented in 2014, was based on a 6-unit CubeSat with a stowed envelope slightly larger than 10 × 20 × 30 cm, a mass of 14 kg (31 lb),[1] cold gas thruster system,[17] and was primarily based on the use of commercial off-the-shelf parts.[6] While it is possible for a 6U CubeSat to reach an NEA with conventional chemical propulsion, both the number of targets and the launch window would be tightly constrained. By utilizing solar sail propulsion, intercepting a large number of targets in any launch window is made possible.[1] The mission duration was estimated at 2.5 years.[2]

After deployment in cislunar space, NEA Scout was intended to deploy its solar panels and antenna. Following a lunar flyby, the solar sail would have deployed and spacecraft checkout would have begun. NEA Scout would then have performed a series of lunar flybys to achieve optimum departure trajectory before beginning its 2.0 – 2.5 year-long cruise to the asteroid 2020 GE.[12]

Sail

Four 6.8 m booms were designed to deploy the single 85 m2 aluminized polyimide solar sail, which is 2.5 μm thick. The sail deployment mechanism was a modification of those of NanoSail and The Planetary Society's LightSail 2 spacecraft.[1][12] The deployment time for the full sail was planned to be approximately 30 minutes.

Avionics

The avionics module accommodated the printed circuit boards for telecommunications, power distribution unit, command and data handling system, Sun sensors, and a miniaturized star tracker. This module also included reaction wheels, lithium batteries, and a camera.[6] The solar sail spacecraft attitude control system consisted of three actuating subsystems: a reaction wheel control system, a reaction control system, and an adjustable mass translator system.[18]

Propulsion

The cold gas propulsion system was situated below the solar sail and provides detumbling, initial impulsive maneuvers (required for lunar-assisted escape trajectories), and momentum management.[17]

Communications

The spacecraft used the Iris transponder for communications in the X-band.[6]

Power

Photovoltaic solar panels, with rechargeable batteries.

Animation of NEA Scout's planned trajectory
Around the Sun
Around the Earth before beginning cruise to 2020 GE
Around the Earth
  Sun ·   Earth ·    NEA Scout ·   2020 GE ·   Moon

See also

Solar sail spacecraft
  • CubeSail – Planned solar sail spacecraft
  • Breakthrough Starshot – Interstellar probe project
  • IKAROS – First interplanetary solar sail spacecraft
  • LightSail-1 – LEO solar sailing demo project
  • NanoSail-D2 – Satellite designed to test concept of solar sails
  • Sunjammer (spacecraft) – NASA mission intended to demonstrate a solar sail constructed by LGarde
Other deep space CubeSats
The 10 CubeSats flying in the Artemis 1 mission

References

  1. ^ a b c d Alexander R. Sobey; Tiffany Russell Lockett (4 May 2016). "Design and Development of NEA Scout Solar Sail Deployer Mechanism" (PDF). NASA. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  2. ^ a b "Lessons Learned from the Flight Unit Testing of the Near Earth Asteroid Scout Flight System". NASA NTRS. 30 July 2019. Retrieved 12 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  3. ^ a b Roulette, Joey; Gorman, Steve (16 November 2022). "NASA's next-generation Artemis mission heads to moon on debut test flight". Reuters. Retrieved 16 November 2022.
  4. ^ Hill, Bill (7 March 2012). "NASA Advisory Council - Exploration Systems Development Status" (PDF). NASA. Archived from the original (PDF) on 31 August 2020. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  5. ^ a b "NASA TechPort – Near Earth Asteroid Scout (NEA Scout)". NASA TechPort. NASA. 2015. Archived from the original on 29 November 2020. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  6. ^ a b c d e f g h i McNutt, Leslie; Castillo-Rogez, Julie (4 August 2014). "Near-Earth Asteroid Scout" (PDF). American Institute of Aeronautics and Astronautics (AIAA). NASA. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  7. ^ Clark, Stephen (12 October 2021). "Adapter structure with 10 CubeSats installed on top of Artemis moon rocket". Spaceflight Now. Retrieved 22 October 2021.
  8. ^ a b c d "NASA Solar Sail Mission to Chase Tiny Asteroid After Artemis I Launch". Jet Propulsion Laboratory. NASA. 20 January 2022. Retrieved 20 January 2022. The target is 2020 GE, a near-Earth asteroid (NEA) that is less than 60 feet (18 meters) in size.
  9. ^ Mahoney, Erin (14 January 2020). "NEA Scout". NASA. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  10. ^ a b Dickinson, David (6 December 2022). "Status Update: Artemis 1's SmallSat Missions". Sky & Telescope. Sky&Telescope. Retrieved 8 December 2022.
  11. ^ Castillo-Rogez, Julie; Abell, Paul (July 2014). "Near Earth Asteroid Scout Mission" (PDF). NASA. Lunar and Planetary Institute. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  12. ^ a b c Les Johnson; Julie Castillo-Rogez; Jared Dervan; Leslie McNutt (17 January 2017). "Near Earth Asteroid (NEA) Scout" (PDF). NASA. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  13. ^ Messier, Doug (17 November 2022). "Status Report on Artemis I Secondary CubeSat Payloads". parabolicarc.com. Retrieved 18 November 2022.
  14. ^ Issam Ahmed [@IssamAhmed] (18 November 2022). "Was asking for an update on a cool side project from the Artemis 1 mission called NEA Scout, a small spaceship that sails on sunshine and is supposed to do recon of an asteroid. Turns out JPL hasn't yet established contact so it may be in trouble. Hope they get it going!" (Tweet) – via Twitter. Thank you for your patience, Isaam. Here's a statement on NEA Scout's status: Following successful separation and deployment from the Space Launch System on Nov.16, NASA's Near-Earth Asteroid Scout (NEA Scout) project team has not yet established communications with the spacecraft. Teams continue working to initiate contact with NEA Scout. NEA Scout is a secondary payload for Artemis I and is a completely independent spacecraft. Orion is still on its way to the Moon. Updates will be provided as soon as possible on NASA's Artemis blog.
  15. ^ a b Lightholder, Jack; Thompson, David R.; Castillo-Rogez, Julie; Basset, Christophe (March 2019). "Near Earth Asteroid Scout CubeSat Science Data Retrieval Optimization Using Onboard Data Analysis". 2019 IEEE Aerospace Conference. pp. 1–7. doi:10.1109/AERO.2019.8742190. ISBN 978-1-5386-6854-2. S2CID 195222320.
  16. ^ McKinney, Colin; Goodsall, Timothy; Hoenk, Michael; Shelton, Jacob; Rumney, Keith; Basset, Christophe; Jeganathan, Muthu; Moore, Douglas (March 2018). "Context cameras for the Orbiting Carbon Observatory 3 (OCO-3) instrument". 2018 IEEE Aerospace Conference. pp. 1–15. doi:10.1109/AERO.2018.8396759. ISBN 978-1-5386-2014-4. S2CID 49540174.
  17. ^ a b "NEA Scout Propulsion System". VACCO. 2021. Retrieved 11 March 2021.
  18. ^ Heaton Andrew (17 January 2017). "Flex Dynamics Avoidance Control of the NEA Scout Solar Sail Spacecraft's Reaction Control System". NASA. Retrieved 11 March 2021. Public Domain This article incorporates text from this source, which is in the public domain.

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