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(Top) 1 Overview 1.1 Concept 1.2 Development 2 Iris 2.1 References 3 External links

CubeRover: Difference between revisions

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CubeRover is a class of planetary rover with a standardized modular format meant to accelerate the pace of space exploration. The idea is equivalent to that of the successful CubeSat format, with standardized off-the-shelf components and architecture to assemble small units that will be all compatible, modular, and inexpensive.^[1]

Overview

Concept

The idea is to create a practical modular concept similar that used for CubeSats and apply it to rovers, effectively creating a new standardized architecture of small modular planetary rovers with compatible parts, systems, and even instruments so that each mission can be easily tailored to its objectives.^[1]^[2]^[3] The rovers are expendable and do not use solar arrays for electrical power, depending solely on non-rechargeable batteries. This allows it to be lighter, have a larger cooling radiator panel for electronics, and have a simpler avionics design.^[4]

The CubeRover program intends that standardizing small rover design with a common architecture will open access to planetary bodies for companies, governments, and universities around the world at a low cost, while increasing functionality, just as the CubeSat has in Earth orbit.^[2] This would motivate other members of the space exploration community to develop new systems and instruments that are all compatible with the CubeRover's architecture.^[1]^[2]

Development

In May 2017 Astrobotic Technology, in partnership with Carnegie Mellon University, were selected by NASA's Small Business Innovation Research (SBIR) to receive a $125,000 award^[5] to develop a small lunar rover architecture capable of performing small-scale science and exploration on the Moon and other planetary surfaces. During Phase I, the team built a 2-kg rover and performed engineering studies to determine the architecture of a novel chassis, power, computing systems, software and navigation techniques.

In March 2018, the team was awarded funds to move on to Phase II,^[1]^[2] and under this agreement, Astrobotic and CMU were to produce a flight-ready rover with a mass of approximately 2 kg (4.4 lb).

In future missions, CubeRovers may be designed to take advantage of lander-based systems to shelter for the cold lunar night, that lasts for 14 Earth days.^[2] Similarly, future larger CubeRovers may be able to incorporate thermal insulation and systems qualified for ultra-low temperatures.^[2]

Iris

*CubeRover*
Spacecraft properties
Astrobotic's CubeRover

Mission type	Technology demonstrator
Operator	Astrobotic Lab and Carnegie Mellon University
Website	www.astrobotic.com


Spacecraft	Iris^[6]^[7]
Spacecraft type	Robotic lunar rover
Bus	CubeRover


Start of mission
Launch date	8 January 2024 07:18:36 UTC
Rocket	Vulcan Centaur VC2S
Launch site	Cape Canaveral SLC-41
Contractor	United Launch Alliance


Moon rover
Landing date	23 February 2024 (originally planned)
Landing site	Planned: Mons Gruithuisen Gamma


Transponders
Band	Wi-Fi

Instruments
Two cameras with 1936 × 1456 resolution

The rover class concept is developed by Astrobotic Technology in partnership with Carnegie Mellon University, and it is partly funded by NASA awards.^[1] A Carnegie Mellon University initiative - completely independent of NASA awards - developed Iris, the first flightworthy CubeRover. It was launched on 8 January 2024 along with Peregrine Mission One.^[8]

References

^ ^a ^b ^c ^d ^e Campbell, Lloyd (18 March 2018). "Astrobotic wins NASA award to produce small lunar rover". Spaceflight Insider. Archived from the original on 2019-08-14.

^ ^a ^b ^c ^d ^e ^f Leonard, David (16 March 2018). "This Tiny Private CubeRover Could Reach the Moon by 2020". Space.com.

^ Jost, Kevin (8 May 2018). "Astrobotic to develop CubeRover standard for planetary surface mobility". Autonomous Vehicle Technology. Archived from the original on December 9, 2018.

^ CubeRover – 2-kg Lunar Rover. Andrew Tallaksen's blog, lead systems engineer for CubeRover. 2018.

^ Cuberover for Lunar Resource Site Evaluation. SBIR, US Government. Accessed on 8 December 2018.

^ "Iris Lunar Rover". Carnegie Mellon University's Robotics Institute.

^ Carnegie Mellon Unveils Lunar Rover "Iris". Carnegie Mellon University's Robotics Institute.

^ Belam, Martin (2024-01-08). "Nasa Peregrine 1 launch: Vulcan Centaur rocket carrying Nasa moon lander lifts off in Florida – live updates". the Guardian. ISSN 0261-3077. Retrieved 2024-01-08.

External links

CubeRover official web site
Iris Lunar Rover official web site
Astrobotic to Develop CubeRover Standard for Planetary Surface Mobility Archived 2018-12-09 at the Wayback Machine. Astrobotic Technology. Press release on 4 May 2017.
CubeRover to Develop Next Generation Planetary Rovers in Luxembourg. Astrobotic Technology, press release on 27 September 2018.
"Astrobotic's Cuberover Program Awarded $2 Million Contract By NASA". Astrobiotic. October 2, 2019. Archived from the original on October 30, 2020. Retrieved November 1, 2020.

Lunar rovers

Active

Yutu-2 (2019–present, on Chang'e 4)

Past

Lunokhod	Lunokhod 0 (1A)^† (1969) Lunokhod 1 (1970–1971, on Luna 17) Lunokhod 2 (1973, on Luna 21)
Apollo	Lunar Roving Vehicle (1971, Apollo 15) LRV-2 (1972, Apollo 16) LRV-3 (1972, Apollo 17)
CLEP	Yutu (2013–2016, on Chang'e 3) Yidong Xiangji (2024, on Chang'e 6)
Chandrayaan	Pragyan^† (2019, on Chandrayaan-2) Pragyan (2023, on Chandrayaan-3)
Rashid	Rashid^† (2022–2023, on Hakuto-R Mission 1)
CLPS	Iris^† (2024, on Peregrine Mission One) Colmena × 5^† (2024, on Peregrine Mission One)
JAXA	Sora-Q^† (2022–2023, on Hakuto-R Mission 1) LEV-1 (2024, on SLIM) LEV-2 (Sora-Q) (2024, on SLIM)

Planned

Proposed

Cancelled

Lunokhod 3 (1977)
Resource Prospector

Missions are ordered by launch date. Sign ^† indicates failure en route or before intended mission data returned.

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