Space

NASA plans first interplanetary CubeSats

NASA plans first interplanetary CubeSats
Artist's concept of the interplanetary CubeSat
Artist's concept of the interplanetary CubeSat
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Artist's concept of the interplanetary CubeSat
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Artist's concept of the interplanetary CubeSat
echanical engineer Joel Steinkraus and systems engineer Farah Alibay with MarCO (Mars Cube One)
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echanical engineer Joel Steinkraus and systems engineer Farah Alibay with MarCO (Mars Cube One)
arah Alibay, a systems engineer at NASA's Jet Propulsion Laboratory with a one-half scale model of MRO and the MarCO
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arah Alibay, a systems engineer at NASA's Jet Propulsion Laboratory with a one-half scale model of MRO and the MarCO
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Small, relatively inexpensive CubeSats have been enjoying a bit of success of late, but only in low-Earth orbit. However, that will soon expand with NASA announcing that its InSight Mars lander will be accompanied in 2016 by a pair of Mars Cube One (MarCO) CubeSats to provide better communications.

While recent Mars missions have been relatively successful, they still suffer from the fact that they're a hundred million miles from Earth and communications are limited – especially during the critical minutes of landing. Built by the Jet Propulsion Laboratory (JPL) in Pasadena, California, MarCO is a technology demonstrator made of six CubeSat units measuring 14.4 x 9.5 in x 4.6 in (36.6 cm x 24.3 cm x 11.8 cm) that is hoped can fill this communications gap.

InSight (short for Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) and the MarCO spacecraft are scheduled to launch in March 2016 Vandenberg Air Force Base, California atop an Atlas V rocket. After liftoff, the MarCO spacecraft will separate, deploy solar panels and antennas. They will fly to Mars independently of the InSight spacecraft and will provide status information to mission control after the lander touches down on September 28, 2016.

This information is not necessary to the mission because it will also be relayed by NASA's Mars Reconnaissance Orbiter (MRO), but it will not only demonstrate the feasibility of the technology, but also return the information an hour earlier than the MRO.

NASA says that if this demonstration proves successful, it could lead to "bring-your-own" communications for deep space missions to Mars and beyond.

Source: NASA

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