BOULDER, Colo. (NASA PR) — A small satellite mission that will study the formation and evolutionary implications for small “rubble pile” asteroids has received NASA approval to proceed to the next phase of its development.
On Sept. 3, the dual-spacecraft Janus project successfully passed the important Key Decision Point-C milestone. It’s the first concept study from the current round of NASA’s Small Innovative Missions for Planetary Exploration (SIMPLEx-2) program to do so.
KENT, Wash. (Blue Origin PR) — The Human Landing System (HLS) National Team, led by Blue Origin with partners Lockheed Martin, Northrop Grumman, and Draper, has completed its System Requirements Review (SRR). SRR is the first program “gated milestone,” which marks the successful baselining of the requirements for the mission, space vehicles, and ground segment. The design proceeded to the NASA Certification Baseline Review (CBR), followed by the lower-level element SRRs, and the preliminary design phase.
HUNTSVILLE, Ala. (NASA PR) — As part of the Artemis program, NASA is returning astronauts to the Moon where we will prepare for human exploration of Mars. Additive manufacturing, or 3D printing, experts from NASA, industry, and academia are pioneering methods to print the rocket parts that could power those journeys.
WASHINGTON (NASA PR) — Kathy Lueders, NASA’s associate administrator for Human Exploration and Operations, has named Robyn Gatens as acting director of the International Space Station at NASA Headquarters. The appointment was effective Aug. 25. Sam Scimemi, the former director, has assumed new responsibilities as a special assistant for the agency’s Human Exploration and Operations Mission Directorate.
“Robyn has demonstrated her leadership and strategic vision for the International Space Station and our efforts to enable a robust low-Earth orbit economy, and I am confident she will continue to do so as acting director,” said Lueders.
HAMPTON, Va. (NASA PR) — NASA is developing next-generation small rocket engines to help reduce the cost of NASA and commercial spacecraft destined for the Moon, Mars, and beyond.
NASA’s Thruster for the Advancement of Low-temperature Operation in Space (TALOS) project is developing small thrusters to reduce overall spacecraft mass and power, which will reduce mission costs. The thrusters can make alterations in a spacecraft’s flight path or altitude and can be used to enter orbit and descend to the surface of another world. They can also serve as main propulsion thrusters for landers.
by Matthew D. Peters NASA’s Goddard Space Flight Center
GREENBELT, Md. — Optical communications, transmitting data using infrared lasers, has the potential to help NASA return more data to Earth than ever. The benefits of this technology to exploration and Earth science missions are huge. In support of a mission to demonstrate this technology, NASA recently completed installing its newest optical ground station in Haleakala, Hawaii.
by Lance Davis NASA’s Marshall Space Flight Center
NASA just validated a new type of propellant, or fuel, for spacecraft of all sizes. Instead of toxic hydrazine, space missions can use a less toxic, “green” propellant and the compatible technologies designed to go along with it. In a little over a year since launch, NASA’s Green Propellant Infusion Mission (GPIM) successfully proved a never-before-used propellant and propulsion system work as intended, demonstrating both are practical options for future missions.
HOUSTON (Blue Origin PR) — Today, the Blue Origin-led Human Landing System (HLS) National Team – comprised of Blue Origin, Lockheed Martin, Northrop Grumman, and Draper – delivered an engineering mockup of a crew lander vehicle that could take American astronauts to the Moon. The lander is set up in the Space Vehicle Mockup Facility (SVMF), NASA Johnson Space Center’s (JSC) iconic Building 9.
HUNTSVILLE, Ala. (NASA PR) — Every detail that goes into space exploration matters. While habitat design or making sure a rocket is powerful enough to launch supplies are obviously important, what may be less apparent are the smaller things, including the solvents used in manufacturing materials for spaceflight.
When we run into a snag designing a new space vehicle, it can be frustrating for the engineers, scientists, and technologists who have spent months and years getting to that point – but it’s also an opportunity for the team to spring into action and innovate a solution.
That’s just what happened with the Ares I, a previous rocket development effort for destinations including the Moon. Though NASA ultimately decided not to continue Ares development, a revolutionary device created to fix a vibration challenge in the rocket is still going strong, and its latest version is set to make offshore wind power more efficient and affordable.
HUNTSVILLE, Ala. (NASA PR) — Teams at NASA’s Marshall Space Flight Center in Huntsville, Alabama, moved the Artemis I launch vehicle stage adapter for NASA’s Space Launch System (SLS) rocket onto the agency’s Pegasus barge July 17.
LUXEMBOURG (Luxembourg Space Agency PR) —Frontier Development Lab (FDL) – an artificial intelligence research accelerator for space science – has kicked off its 2020 program on a virtual platform with researchers and faculty from across the globe.
The Luxembourg Space Agency partners with FDL for the 4th consecutive year.
The teams, comprised of early-career PhDs in AI and interdisciplinary science domains, are supported by subject matter experts from NASA (including NASA Headquarters, NASA Ames Research Center and NASA Marshall Space Flight Center) and the SETI Institute together with FDL Partners: Google Cloud, Mayo Clinic, Lockheed Martin, MIT, USGS, IBM, Intel AI, Luxembourg Space Agency, NVIDIA, Planet and Augustus Intelligence. Along with expertise, FDL partner organisations support advanced AI research by providing funding, hardware, AI/ML algorithms, datasets, software and cloud-based super-compute resources.
PASADENA, Calif. (NASA PR) — As the time when NASA will begin sending humans back to the Moon draws closer, crewed trips to Mars are an enticing next step. But future space explorers will need new tools when traveling to such distant destinations. The Deep Space Atomic Clock mission is testing a new navigation technology that could be used by both human and robotic explorers making their way around the Red Planet and other deep space destinations.
HUNTSVILLE, Ala. (NASA PR) — On June 24, 2020, engineers completed the Space Launch System (SLS) rocket’s structural testing campaign for the Artemis lunar missions by testing the liquid oxygen structural test article to find its point of failure.
HUNTSVILLE, Ala. (NASA PR) — NASA’s Space Launch System (SLS) Program is concluding its structural qualification test series with one upcoming final test that will push the design for the rocket’s liquid oxygen tank to its limits at NASA’s Marshall Space Flight Center in Huntsville, Alabama.