The mid-2020s era is a historic opportunity to advance NASA’s space communications infrastructure as humans return to the moon and continue to interplanetary exploration, starting with Mars. Capabilities include:(1) Delay/Disruption Tolerant Networking (DTN), (2) Multiple Spacecraft Per Aperture (MSPA, also known as Multiple Spacecraft Per Antenna), and (3) Simultaneous Ka-band uplink and downlink. This paper presents an overview of NASA’s plans to provide high data rate communication and navigation services for lunar exploration efforts including: operations concepts to support the lunar communications architecture, major network enhancements and new capabilities, and a Mars-forward approach that maximizes the reuse of these capabilities. Early missions will include short surface stays, but as the base camp evolves, the goal is to allow crew to stay at the lunar surface for up to two months at a time. In pursuance of this new architecture, the SCaN Program is augmenting NASA’s space communications networks by upgrading the current 34-meter beam waveguide antenna systems and incorporating an 18-meter class subnet. To give astronauts a place to live and work on the Moon, the agency’s Artemis Base Camp concept includes a modern lunar cabin, a rover and even a mobile home. This architecture serves at the foundational infrastructure, paving the way for future exploration of Mars. NASA’s Space Communications and Navigation (SCaN) Program is designing a scalable, extensible, and reusable network architecture to provide communication and navigation services in support of lunar exploration. The Artemis Program relies on simultaneous operation of multiple flight assets separated by large angular distances that require a unique communication strategy and is a departure from the previous Apollo-era architecture. Named the Artemis Program, this effort serves as a proving ground for the greater Moon-to-Mars campaign and establishes a lunar outpost by 2028.
ARTEMIS NASA PDF REGISTRATION
The accords reinforce the commitment by the United States and signatory nations to the Registration Convention, the Rescue and Return Agreement, as well as best practices and norms of responsible behavior that NASA and its partners support, including the public release of scientific data.Space Communications in Support of the Artemis Program NASA has been challenged to send the first woman and first person of color to the South Pole of the moon by 2024. Department of State, established the Artemis Accords in 2020 together with seven other founding member nations.
With numerous countries and private companies conducting missions and operations around the Moon, a common set of principles to govern the civil exploration and use of outer space is necessary.
ARTEMIS NASA PDF SOFTWARE
The SLS avionics computer software is developed at NASA’s Marshall Space Flight Center in Huntsville. With the Artemis I core stage complete, Boeing is building stages for the next few Artemis missions.
ARTEMIS NASA PDF SERIES
While NASA is leading Artemis, international partnerships will play a key role in achieving a sustainable and robust presence at the Moon where the agency will prepare for the first human mission to Mars. planned Green Run test series at NASA’s Stennis Space Center in Mississippi. Through the Artemis program, NASA will land the first woman and first person of color on the Moon, make new scientific discoveries, and explore more of the lunar surface than ever before for the benefit of all. Principles for a Safe, Peaceful, and Prosperous Future
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