Local Mayors, City Managers Visit NASA Center

Local Mayors, City Managers Visit NASA Center

1 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

NASA’s Glenn Research Center Deputy Director Dawn Schaible provided an overview to more than 20 mayors and city manager from northeast Ohio during an event at the Ohio Aerospace Institute in Brook Park, Ohio, on Nov. 9. She highlighted Glenn’s work and the positive impact it has on the local community, state, and region. Following the event, the group toured several test and research facilities at NASA Glenn’s Lewis Field. 

Members of the Northeast Ohio Mayors and City Managers Association pose in front of an airplane model by NASA Glenn Research Center’s hangar.
Northeast Ohio Mayors and City Managers Association members gather in front of NASA Glenn Research Center’s hangar.
Credit: NASA/Quentin Schwinn

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Kelly M. Matter

Six Finalists Named in NASA’s $3.5 Million Break the Ice Challenge

Six Finalists Named in NASA’s $3.5 Million Break the Ice Challenge

4 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

A Graphic of the Break the Ice Lunar Challenge Logo placed on a photo of the Moon.

By Savannah Bullard

The stage is set for the finale of NASA’s Break the Ice Lunar Challenge.

Conceived in 2020, Break the Ice tasked innovators with creating robotic systems that can traverse the volatile terrain of the Lunar South Pole. These robots must be able to dig into the Moon’s regolith – the dusty, icy “dirt” that makes up the lunar surface – and transport it to a secondary location for in-situ resource utilization (ISRU) processing.

If deployed on a NASA mission, these systems would operate in the permanently shadowed regions of the Moon, an area that receives no sunlight. These technologies must survive bitterly cold conditions and cannot rely on solar power regeneration. If successful, NASA can excavate the regolith from this area and use the resources derived from the materials, like frozen water, to aid astronauts living on the Moon.

“Our goal is to provide solutions to make living on the Moon a reality, and Break the Ice directly contributes to that mission,” said Denise Morris, program manager for NASA’s Centennial Challenges. “Excavating lunar regolith before humans arrive on the Moon will allow us to find uses for that material before they get there – if we could build a lunar habitat out of the regolith or extract the water for our astronauts to drink, that means less mass on our vehicles and less work for our crews.”

Phase 1 of the competition focused on designing systems that could achieve three components: excavation, travel, and delivery. Of the 31 teams who submitted eligible proposals, 13 won cash prizes ranging from $25,000 to $125,000.

Phase 2: Level 1 opened in June 2022. Consisting of Phase 1 winners and newcomers, 25 teams developed their initial designs into prototypes with technical reports, engineering designs, and test plans. Six months later, 13 U.S. semifinalists were named, each earning an equal share of $500,000. Two international teams were also recognized as semifinalists, though they were not eligible to receive monetary prizes from NASA.

In Phase 2: Level 2, the finalist pool comprised of garage inventors, academics, industry professionals, and hobbyists from 11 U.S. states, the Netherlands, and India. Nine of these teams attempted a 15-day demonstration trial at their own testing sites to prove the capabilities of their prototypes. The teams live-streamed the tests and took turns hosting representatives from Centennial Challenges for in-person observations.

“What impresses me the most with this batch of competitors is their innate ability to each find unique ways to approach the solution,” said Break the Ice Challenge Manager Naveen Vetcha, who supports Centennial Challenges through Jacobs Space Exploration Group. “Each site visit provided our subject matter experts with new ways to think about this technology and operations, and some of these teams expanded our expectations for how to bridge this technology gap.”

The Phase 2: Level 2 winning teams are:

1st Place ($300,000): Starpath Robotics (San Francisco, CA)

2nd Place ($200,000): Terra Engineering (Gardena, CA)

3rd Place ($125,000): The Ice Diggers (Golden, CO)

Runners Up ($75,000 each):

  • Cislune Excavators (Los Angeles, CA)
  • Space Trajectory (Brookings, SD)
  • MTU Planetary Surface Technology Development Lab (Houghton, MI)

In this last round of competitions, scheduled to take place in the spring of 2024, the above winners will bring their prototypes to a NASA-designated test facility for a series of head-to-head matchups. Expected testing includes excavation under reduced gravity – using gravity off-loading – and transportation over complex terrain, including rocks, craters, slopes, turns, and loose granular soil.

“Bringing the competitors to one central location is the best way to end a challenge like Break the Ice because it provides us with an opportunity to observe and test their designs in a common relevant environment,” said Mark Hilburger, a senior research engineer in the Space Technology Exploration Directorate at NASA’s Langley Research Center in Hampton, Virginia, and principal technologist for Break the Ice. “These technologies must be thoroughly tested to survive on the Moon, so a test opportunity like this helps the teams prove if their prototypes are up to the task.”

This final round of competition will offer up to $1.5 million in cash prizes, split between first place ($1 million) and second place ($500,000). NASA will also award opportunities for teams to test their concepts at one of the agency’s Thermal Vacuum Chambers, which can simulate the temperature and atmospheric pressure conditions at the Lunar South Pole.

The Break the Ice Lunar Challenge is a NASA Centennial Challenge led by the agency’s Marshall Space Flight Center  in Huntsville, Alabama, with support from NASA’s Kennedy Space Center in Florida. Centennial Challenges are part of the Prizes, Challenges, and Crowdsourcing program led by NASA’s Space Technology Mission Directorate and managed at NASA Marshall. Ensemble Consultancy supports the management of competitors for this challenge.

Jonathan Deal
NASA’s Marshall Space Flight Center
256-544-0034
jonathan.e.deal@nasa.gov

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Dec 06, 2023

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Beth Ridgeway

New Course from NASA Helps Build Open, Inclusive Science Community

New Course from NASA Helps Build Open, Inclusive Science Community

3 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

NASA released its free Open Science 101 curriculum Wednesday to empower researchers, early career scientists, and underrepresented communities with the knowledge and tools necessary to embrace open science practices.

The curriculum’s initial goal is to train 20,000 scientists and researchers over the next five years, enabling them to embrace open science practices and maximize the impact of their work.

“NASA is committed to ensuring people around the world have equal and open access to science data whenever they need it,” said NASA Administrator Bill Nelson. “This innovative curriculum will support the White House’s Year of Open Science to help people make informed, research-based decisions that will benefit humanity and improve life here on Earth.”

Developed by NASA’s Transform to Open Science initiative in collaboration with subject matter experts, the curriculum is designed to meet researchers at every stage of their open science journey – catering to those new to open science, established researchers, and aspiring students looking to embark on scientific careers. It also helps prepare researchers to incorporate required open science data management plans when applying for NASA grant funding.

“We believe education is a shared endeavor that can be achieved through community-driven learning,” said Nicola Fox, associate administrator, Science Mission Directorate at NASA Headquarters in Washington. “Our new curriculum is a testament to the incredible potential that emerges when open science experts from academia, industry, and government unite. With this initial rollout, we’re not just launching a course; we’re igniting a movement where learners actively shape the course’s trajectory.”

In its initial form, the Open Science 101 curriculum presents an introduction to the world of open science while also setting the stage for its continued evolution. It introduces learners to definitions, tools, and resources and provides valuable best practices throughout the scientific workflow. All five modules of the course are accessible through an open online platform, where participants can learn at their own pace. In addition to the platform, the modules will also be covered in virtual and in-person instructor-led training sessions.

To further support engagement and knowledge exchange, NASA has forged strategic partnerships with scientific associations, allowing open science to be taught during large annual meetings, special science team summer schools, and other events. These initiatives aim to create a dynamic learning environment where participants can interact with experts, ask questions, and explore the frontiers of open science. The diversity in learning options ensures that participants can choose the mode that best suits their learning style and schedule, optimizing the learning experience.

The Open Science 101 curriculum is accessible to all interested individuals, aligning with NASA’s commitment to inclusivity and promoting equitable access to scientific resources. 

To learn more, register for Open Science 101, and begin taking the curriculum, visit:

https://nasa.github.io/Transform-to-Open-Science/

-end-

News Media Contacts:

Karen Fox / Alise Fisher
Headquarters, Washington
202-358-1600 / 202-358-2546
karen.c.fox@nasa.gov / alise.m.fisher@nasa.gov

Jonathan Deal
Marshall Space Flight Center, Huntsville, Ala.
256-544-0034
jonathan.e.deal@nasa.gov

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Last Updated

Dec 06, 2023

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Claire A. O’Shea

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Claire A. O’Shea

Health, Manufacturing Science Day Before Station’s 25th Anniversary

Health, Manufacturing Science Day Before Station’s 25th Anniversary

The space station is pictured from the SpaceX Crew Dragon Endeavour during its departure and flyaround on Nov. 8, 2021.
The space station is pictured from the SpaceX Crew Dragon Endeavour during its departure and flyaround on Nov. 8, 2021.

Research to promote health and advance manufacturing were the top science activities aboard the International Space Station on Tuesday. The Expedition 70 crew will also commemorate 25 years since the first two station modules were connected on orbit.

NASA Flight Engineer Jasmin Moghbeli began her day in the Kibo laboratory module working on the Cerebral Aging study that is exploring neurodegenerative processes. She processed brain cell-like samples inside Kibo’s Life Science Glovebox to understand the effects of microgravity at a molecular and cellular level. Results may advance research techniques, reduce drug development costs, and improve health on Earth and in space.

Moghbeli later joined astronaut Satoshi Furukawa on Wednesday afternoon transferring cargo in and out of the SpaceX Dragon cargo spacecraft. Furukawa from JAXA (Japan Aerospace Exploration Agency) finalized his day checking the performance of a spherical robot camera that can operate remotely or autonomously inside Kibo.

Commander Andreas Mogensen worked in the Destiny laboratory module on fiber optics research installing experiment hardware in the Microgravity Science Glovebox. The advanced physics study may benefit Earth and space-based applications such as laser surgery, remote-sensing, atmospheric monitoring, and optical data communications. Mogensen from ESA (European Space Agency) wrapped up his day cleaning orbital plumbing hardware.

NASA Flight Engineer Loral O’Hara from NASA began her day inside the Columbus laboratory module removing electronic components from life science hardware. Afterward, she spent the rest of the day inside Kibo supporting more space biology work.

In the orbital outpost’s Roscosmos segment, veteran cosmonaut Oleg Kononenko serviced a carbon dioxide removal device then repositioned eggs in an incubator for a new biology experiment. Flight Engineer Nikolai Chub worked on cargo and water transfers from the newly docked Progress 86 cargo craft. Flight Engineer Konstantin Borisov worked on an oxygen generator, cleaned ventilation systems, then watered and photographed plants growing for a Roscosmos space botany study.

At 12:25 p.m. EST on Wednesday, all seven space station crew members will gather in the Harmony module for a live television conference commemorating 25 years of space station assembly. The orbital septet will receive a call from NASA Associate Administrator Bob Cabana and International Space Station Program Manager Joel Montalbano discussing the station’s evolution and its impact on Earth and space industries. Cabana commanded space shuttle Endeavour during the STS-88 mission on Dec. 6, 1998, when the Zarya and Unity modules were mated. The shuttle’s Canadarm robotic arm grappled Zarya and mated it to Unity stowed in Endeavour’s payload bay.

Watch live on the NASA+ streaming service via the web or the NASA app. Coverage also will air live on NASA Television,  YouTube, and on the agency’s website. Learn how to stream NASA TV through a variety of platforms including social media.


Learn more about station activities by following the space station blog@space_station and @ISS_Research on X, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly video highlights at: https://roundupreads.jsc.nasa.gov/videoupdate/

Get the latest from NASA delivered every week. Subscribe here: www.nasa.gov/subscribe

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Mark Garcia

Saturn and Jupiter Conjunction

Saturn and Jupiter Conjunction

The Moon, left, Saturn, upper right, and Jupiter, lower right, are seen after sunset from Washington, DC, Thurs. Dec. 17, 2020. The two planets drew closer to each other in the sky as they headed towards a “great conjunction” on Dec. 21, where the two giant planets appeared a tenth of a degree apart.

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