NASA Invites Media to Bulgaria Artemis Accords Signing Ceremony

NASA Invites Media to Bulgaria Artemis Accords Signing Ceremony

The Artemis Accords describe a shared vision for principles, grounded in the Outer Space Treaty of 1967, to create a safe and transparent environment which facilitates space exploration and science for all of humanity to enjoy.
Credits: NASA

Bulgaria will sign the Artemis Accords during a ceremony at 10 a.m. EST on Thursday, Nov. 9, at NASA Headquarters in Washington.

NASA Administrator Bill Nelson will host officials from Bulgaria and the U.S. Department of State for the accords signing ceremony.

This event is in-person only. Media interested in attending must RSVP by 7 a.m. on Nov. 9, to the NASA Headquarters newsroom at hq-media@mail.nasa.gov. NASA’s media accreditation policy is online.

The Artemis Accords establish a practical set of principles to guide space exploration cooperation among nations, including those participating in NASA’s Artemis program.

NASA, in coordination with the U.S. Department of State, announced the Artemis Accords in 2020 along with the original signatories. The accords reinforce and implement the 1967 Outer Space Treaty. They also reinforce the commitment by the United States and partner 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 have supported, including the public release of scientific data.

The event will take place at the agency’s James E. Webb Auditorium in the West Lobby inside NASA Headquarters located at 300 E St. SW.

Learn more about the Artemis Accords at:

https://www.nasa.gov/artemis-accords

-end-

Jackie McGuiness / Roxana Bardan
Headquarters, Washington
202-358-1600
jackie.mcguinness@nasa.gov / roxana.bardan@nasa.gov

Share

Details

Last Updated

Nov 07, 2023

Related Terms

Powered by WPeMatico

Get The Details…
Roxana Bardan

Super Guppy Arrives in Alabama to Drop Off Artemis I Heat Shield

Super Guppy Arrives in Alabama to Drop Off Artemis I Heat Shield

The large super guppy plane flies into Huntsville, Alabama for a landing.
Credits: NASA

NASA’s Super Guppy arrives in Alabama on Nov. 6, 2023, carrying the heat shield that protected Orion’s crew module during its flight on Artemis I. The one-of-a-kind, turboprop-powered aircraft ferried the heat shield from NASA’s Kennedy Space Center in Florida to Huntsville Regional Airport for transport to the agency’s Marshall Space Flight Center. Technicians at Marshall will use the center’s specialized milling tool to remove the heat shield’s outer layer of ablative material, a protective coating called Avcoat, as part of routine post-flight analysis.

Click here to download the NASA b-roll

Powered by WPeMatico

Get The Details…
Beth Ridgeway

Going Beyond the Challenge for New and Continued Success

Going Beyond the Challenge for New and Continued Success

Two fair-skinned men stand facing the camera with their arms crossed over their chests. The man on the left is wearing a dark sweatshirt with a white text label on the left breast. He has shoulder-length curly brown hair and is wearing a navy New York Yankees baseball cap. The man on the right is wearing a white button-down shirt and a white undershirt. He has short, dark brown hair and is wearing wire-rimmed glasses. They stand in front of a laboratory-style workspace, with many plants and machines in the background.
CO2 Conversion Challenge (2020) – NASA’s Centennial Challenges has an impact far greater than just space travel – just ask Air Co., a Brooklyn-based company that competed and won a three-way tie in the CO2 Conversion Challenge, which ran from 2018 to 2021. Air Co. founders Gregory Constantine (left) and Stafford Sheehan (right) used their innovative idea, which originally existed to convert carbon dioxide into glucose, to create immediately usable hand sanitizer at the height of the COVID-19 pandemic.
Image courtesy of Air Co.

NASA’s Space Technology Mission Directorate connects the public to the agency’s missions and explores creative possibilities for addressing the agency’s research and technology development needs through prizes, challenges, and crowdsourcing opportunities. These challenges bridge NASA’s institutional expertise with the ingenuity of industry experts, universities, and the public at large, resulting in collaborations that help advance space technology solutions. For many solvers, success doesn’t stop when the NASA challenge ends. Past participants have gone on to work with NASA in other ways and take their technology to new heights in the commercial sector.

Commercializing Challenge-Supported CO2 Technology

Air Company of Brooklyn, New York, was one of three teams to win the final round of NASA’s CO2 Conversion Challenge, which concluded in August 2021. This challenge asked the public to develop ways to convert carbon dioxide (CO2), an abundant resource on Mars, into sugar, which could be used by astronauts to make products including plastics, adhesives, fuels, food, and medicine. Air Company received a $700,000 award in the final phase of the competition for its thermochemical sugar production. First, CO2 and hydrogen are combined to make methanol, then hydrogen is removed to turn methanol into formaldehyde. The third chemical reaction produces a simple sugar called D-glucose.

Since participating in the CO2 Conversion Challenge, Air Company has commercialized its CO2-converting technology in unique ways, producing hand sanitizer, fragrance oil, and even vodka. The CO2 used is sourced from biogenic emissions – mitigating emissions that are released into the atmosphere from ethanol fermentation facilities.1 The company has also gone on to compete in NASA’s Deep Space Food Challenge and developed a system and processes for turning air, water, electricity, and yeast into food. In May 2023, Air Company was named a winner in Phase 2 of the challenge, receiving a $150,000 prize from NASA and a chance to compete in Phase 3 for a grand prize of $750,000 from a total prize purse of up to $1.5 million.

Cross-Program Competitors Advance Lunar Power Solutions

Astrobotic Technology, a small business based in Pittsburgh, was named a grand prize winner of Phase 1 of NASA’s Watts on the Moon Challenge in May 2021. The company is no stranger to NASA – in fact, John Thornton, CEO of Astrobotic, credits early NASA Small Business Innovation Research (SBIR) funding as “the lifeblood of the company,” starting with its first award in 2009. Astrobotic has also received funding from NASA’s Tipping Point program and was selected to deliver scientific and technology payloads to the Moon as part of the agency’s Commercial Lunar Payloads Services (CLPS) initiative.

Artist concept of a vertical solar array being used as a power source on the surface of the Moon with robotics positioned nearby.
Having continuous power throughout the lunar day and night during missions on the surface of the Moon is an essential technology asset for long-term crew and scientific exploration.

For the Watts on the Moon Challenge, teams were asked to submit ideas for up to three parts of a hypothetical mission scenario: generating power from a plant to harvest water and oxygen from a dark crater on the Moon’s South Pole. Astrobotic received the grand prize in response to the first part of the scenario, proposing a fleet of small rovers that transport power cables between the solar array power source and the rover that operates inside the crater. The team also received a prize for collaborating with Montreal startup Eternal Light Photonics Corp. for a wireless mobile power beaming solution.

According to Astrobotic, the prizes contribute to the company’s development of lunar surface power infrastructure.2 In August 2022, the company was selected by NASA to receive $6.2 million to help advance Vertical Solary Array Technology (VSAT) under the agency’s Game Changing Development program.3

Printing Homes for Extraterrestrial Lands and on Earth

In November 2022, small business ICON, based in Austin, Texas, received a $57.2 million contract from NASA to develop construction technologies that could support infrastructure such as landing pads, habitats, and roads on the Moon. This effort supports NASA’s Moon to Mars Planetary Autonomous Construction Technologies (MMPACT) project. Preceding this, the company participated in NASA’s 3D-Printed Habitat Challenge, which ran from 2015 to 2019. This challenge asked competitors to design, develop, and test several areas of 3D printing that could contribute to potential human shelter on Mars. ICON partnered with the Colorado School of Mines in Phase 3: Level 1 of the challenge. The team was named a top ten finalist for their digital representation of a house on Mars using building information modeling software tools.

A new award from NASA will support ICON in developing construction technology that could be used on the Moon and Mars.

The technology ICON initially developed through the NASA challenge has helped pave several paths for the company. In addition to designing extraterrestrial infrastructure, ICON also impacts global housing by constructing 3D printed homes on Earth. The company created the first 3D printed community of homes in Nacajuca, Mexico.4 Taking its challenge journey full circle, ICON has also released its own global architecture competition open to the public.

Global Participation Leads to Mini Rover Missions

Based in Budapest, Hungary, Puli Space Technologies is an example of the global collaboration that is possible through prize, challenge, and crowdsourcing opportunities. In 2020, the company participated in the Honey, I Shrunk the NASA Payload competition, which sought designs for miniature science instruments – about the size of a bar of soap – that could help scout the lunar surface, collecting key information about the Moon, its resources, and the environment. The challenge was sponsored by NASA’s Lunar Surface Innovation Initiative to cultivate new ideas, spur innovation and enhance the development of capabilities for exploration of the lunar surface. The challenge received 132 entries from 29 countries. Puli Space won first prize in the first iteration of the challenge for its conceptual Puli Lunar Water Snooper (PLWS) to identify hydrogen and all hydrogen-bearing volatiles, like water-ice, on the Moon.

Following the challenge, NASA released Honey, I Shrunk the NASA Payload Challenge, the Sequel, a two-year challenge that asked teams to develop, build, and prototype their miniature rover payloads. Out of the 14 finalists from the original challenge, four teams were chosen to advance to stage 2 of the sequel challenge. As part of the challenge, NASA provided $675,000, which was split between the four teams to fund development. Puli Space placed second in the sequel challenge for developing PLWS. According to Puli Space CEO Tibor Pacher, the connections made in preparing for the challenge led to PLWS’s placement on at least two planned commercial Moon missions.5

Endnotes

[1] https://www.aircompany.com/

[2] https://www.astrobotic.com/astrobotic-wins-two-nasa-prizes-for-lunar-power-infrastructure/

[3] https://www.nasa.gov/press-release/three-companies-to-help-nasa-advance-solar-array-technology-for-moon

[4] https://www.iconbuild.com/projects/3d-printed-homes-in-nacajuca-mexico-with-new-story

[5] https://lsic.jhuapl.edu/Resources/files/Newsletters/LSIC-Newsletter_2023_June_v4.pdf

Powered by WPeMatico

Get The Details…
Bailey G. Light

Reaching New Frontiers in Science Supported by Public Participation

Reaching New Frontiers in Science Supported by Public Participation

8 min read

Reaching New Frontiers in Science Supported by Public Participation

Image representing a round star colorized with bands of purple and red against a black background with white stars
A brown dwarf roaming the Milky Way galaxy. Image by citizen scientist/artist William Pendrill.
Credit: William Pendrill

NASA’s Science Mission Directorate seeks knowledge and answers to profound questions that impact all people. Through competitions, challenges, crowdsourcing, and citizen science activities, NASA collaborates with the public to make scientific discoveries that help us better understand our planet and the space beyond. Multiple NASA science projects were supported through public participation in Fiscal Years 2021 and 2022, spanning pursuits in astrophysics, Earth science, heliophysics,1 and more.

Astrophysics

NASA challenges in astrophysics seek to uncover new information about the origin, structure, evolution, and future of the universe, as well as other worlds outside our solar system.

Seeking potential planets in the backyard of our solar system, NASA invited the public to examine data from the Wide-field Infrared Survey Explorer (WISE) mission to discern moving celestial bodies. Human eyes are needed for the task because anomalies in the images often fool image processing technologies. The WISE mission continues to collect data, and the Backyard Worlds: Planet 9 citizen science project is still ongoing. But the project has discovered so far more than 3500 brown dwarfs (balls of gas too small to be considered stars), and one notable citizen scientist himself found 34 ultracool brown dwarfs with companions, now published in The Astronomical Journal.

To understand stars better, a citizen science project called Disk Detective 2.0 was launched in 2020 to evaluate disks, or belts, of material around stars. The original 2014 project resulted in the discovery of the longest-lived disks that form planets—dubbed “Peter Pan” disks—as well as the discovery of the youngest nearby disk around a brown dwarf. The relaunch offered a new batch of 150,000 stars in infrared wavelengths from NASA’s WISE mission and other data. As of May 2023, more than 12,000 volunteers had contributed to the project and 14 of those co-authored scientific papers based on their findings.

The Hybrid Observatory for Earth-like Exoplanets (HOEE) is a concept for a mission that would combine a ground-based telescope with a space-based starshade to enable better views of exoplanets from Earth.  
The Hybrid Observatory for Earth-like Exoplanets (HOEE) is a concept for a mission that would combine a ground-based telescope with a space-based starshade to enable better views of exoplanets from Earth.  
As part of early-stage study of this concept, NASA invited the public to develop 3D computer models of a lightweight starshade. Requirements for the starshade design included compact packaging, successful deployment in orbit, and a low-mass structure capable of maintaining its shape and alignment using as little spacecraft fuel as possible. The Ultralight Starshade Structural Design Challenge received 60 entries, and the top five shared a $7,000 prize. First place combined inflatable tubes for compression structures and cables for tension.  

Artist rendering of a gold starsahde fully deployed in space.
The Ultralight Starshade Structural Design Challenge asked participants to develop a lightweight starshade structure that could be used as part of the Hybrid Observatory for Earth-like Exoplanets (HOEE) concept

Earth Science

One goal of NASA’s Earth science pursuits is to map the connections between Earth’s vital processes and the climate effects of natural and human-caused changes. Multiple competitions are aiding our understanding of these interconnected systems.

A worldwide program called Global Learning and Observation to Benefit the Environment (GLOBE) has brought educators and students together since 1995, promoting science and learning about the environment. As one of the partner organizations for the program, NASA sponsored the NASA GLOBE Trees Challenge 2022: Trees in a Changing Climate to gather tree height observations. The data collected is compared with space-based observation systems to track tree height and growth rate as an indicator of ecosystem health. Volunteers from around the world have amassed more than 4,700 tree-height observations from over 1,500 locations in 50 countries.

A similar data-gathering effort—the Cooperative Open Online Landslide Repository (COOLR)—utilizes a web-based platform developed by NASA to share reports of landslides. The repository’s data is validating a model in development at NASA’s Goddard Space Flight Center in Greenbelt Maryland, the Landslide Hazard Assessment for Situational Awareness (LHASA), to map areas of potential landslide hazard in real-time. LHASA incorporates landslide inventories from people around the world in a machine-learning framework to estimate the relative probability of landslide occurrence.

To develop more accurate air quality data products from NASA satellite missions, a public competition called NASA Airathon: Predict Air Quality2 asked participants to develop algorithms for estimating daily levels of surface-level air pollutants on Earth. Using NASA satellite data, model outputs, and ground measurements, the public estimated daily levels of particulate matter (PM) and nitrogen dioxide (NO2) across urban areas in the U.S., India, and Taiwan—all of which have readily available satellite data. The contest generated more than 1,200 submissions from over 1,000 participants and awarded $25,000 in prizes.

A coral reef in American Samoa, one of the locations where researchers from the Laboratory for Advanced Sensing went on deployment to collect data using fluid-lensing instruments.
The ocean: it’s Earth’s largest ecosystem and the habitat for coral – one of the planet’s most unique and oldest life forms.

While the concept for an iPad game called NeMO-Net could be applied to the search for life across the universe, the current application is assessing the health of coral reefs. Players help NASA classify coral reefs by painting 3D and 2D images of coral captured using the NASA FluidCam instrument, the highest-resolution remote sensing benthic imaging technology capable of removing ocean wave distortion. Data from the painted images feeds into NASA NeMO-Net, the first neural multi-modal observation and training network for global coral reef assessment. With 43,000 unique downloads of the game, there have been 71,000 classifications, of which 56,400 have been reviewed and confirmed by NASA.

Planetary Science

NASA’s spacecraft, which arrived at Jupiter in 2016, continues to explore the planet and its satellites with a suite of scientific instruments and a camera called JunoCam. The camera takes visible frequency images of Jupiter’s polar regions and its moons.  Via the project website, citizen scientists create images from the raw JunoCam data and post their creations on the Juno website and social media platforms. Early during the prime mission, the project engaged with the public in an online voting campaign to plan image-taking during orbital passes around Jupiter (“perijoves”), but the effort was abandoned after the transition to the 53 day–orbit mission due to unfavorable evolution of the approach geometry.

Ideally, when a space rover lands on Mars, it will know where it is safe to drive, land, sleep, and hibernate—without any guidance from a human operator. An early step in developing this capability, AI4Mars, invited the public to label images of Mars terrain taken by the Curiosity rover. The goal is to train a machine learning algorithm to improve the rover’s ability to identify and avoid hazardous terrain, which is essential for autonomous exploration. Over 16,000 volunteers completed more than 632,000 classifications, and a model developed using the data has a total accuracy of 91%.

A self-portrait of NASA's Curiosity rover taken on Sol 2082 (June 15, 2018). A Martian dust storm has reduced sunlight and visibility at the rover's location in Gale Crater.
A self-portrait of NASA’s Curiosity rover taken on Sol 2082 (June 15, 2018). A Martian dust storm has reduced sunlight and visibility at the rover’s location in Gale Crater. Self-portraits are created using images taken by Curiosity’s Mars Hands Lens Imager (MAHLI). https://photojournal.jpl.nasa.gov/catalog/PIA22486

Another ideal capability for a Mars rover is independent analysis of data to avoid the tedious process of data transmission from Mars to Earth and back. In the Mars Spectrometry: Detect Evidence for Past Habitability challenge, NASA engaged the public to build a model to automatically analyze mass spectrometry data from rock and soil samples. Out of 656 entries, a software engineer from Brisbane, Australia, won $15,000 for first place. The second-place winner from the United States received $7,500, and the third-place winner from India won $5,000.

Biological and Physical Sciences

One of the aims of biological science research at NASA is to understand how biological systems acclimate to spaceflight environments. 

A unique classroom-based citizen science program called Growing Beyond Earth advances NASA’s research on growing plants in space. In its seventh year, the NASA program provides all the materials needed for the experiments. In total, more than 40,000 participating students and teachers have contributed hundreds of thousands of data points and tested 180 varieties of edible plants. As a result of their efforts, four types of vegetables were grown by NASA off-Earth, and two varieties have been successfully grown on the International Space Station.

Heliophysics

NASA studies the Sun and its effects on Earth and the solar system—or heliophysics—to increase understanding of how the universe works, how to protect technology and astronauts in space, and how stars contribute to the habitability of planets throughout the universe.

SOHO captured this image of a gigantic coronal hole hovering over the sun’s north pole on July 18, 2013.
SOHO captured this image of a gigantic coronal hole hovering over the sun’s north pole on July 18, 2013.

To enable better discovery and tracking of sungrazing comets—the large but faint objects made of dust and ice in close orbit of the Sun—NASA held the NASA SOHO Comet Search. Over $55,000 in prizes was awarded to solutions to reduce background noise in data recorded by the Large Angle and Spectrometric Coronagraph (LASCO), one of the instruments on the Solar and Heliospheric Observatory (SOHO) spacecraft. Hundreds of participants from around the world devised artificial intelligence and machine learning approaches, which led to the discovery of two previously unidentified comets, including a difficult-to-detect non-group comet.

The preliminary results we’re already seeing come out of this challenge highlight the value of the open science movement.

Katie Baynes

Katie Baynes

NASA’s Deputy Chief Science Data Officer

Space Apps 2021

In its tenth year, NASA’s 2021 International Space Apps Challenge took place in 320 locations across 162 countries or territories. The hackathon for coders, scientists, designers, storytellers, makers, technologists, and innovators around the world offered 28 different topics to solve using open data from NASA and others. This year’s winners included an app for homeowners to simplify data from NASA’s Prediction of Worldwide Renewable Energy Resources (POWER) web services portal to help make solar panel purchasing decisions and encourage solar energy use. Another winning app detects, quantifies, follows, and projects the movement of plastic debris in the ocean with high accuracy.

Endnotes

[1] https://science.nasa.gov/about-us/smd-vision

[2] https://drivendata.co/blog/nasa-airathon-winners

Powered by WPeMatico

Get The Details…
Bailey G. Light

Calling all Eclipse Enthusiasts: Become a NASA Partner Eclipse Ambassador!

Calling all Eclipse Enthusiasts: Become a NASA Partner Eclipse Ambassador!

2 min read

Calling all Eclipse Enthusiasts: Become a NASA Partner Eclipse Ambassador!

By Vivian White, Astronomical Society of the Pacific

Two people stand looking up at the Sun, while holding solar filters against their eyes.
Eclipse Ambassadors help share information with their communities about how to safely observe the Sun, such as using handheld solar viewers.
Los Angeles Astronomical Society/Iraneide De Oliveira

Are you an astronomy enthusiast or undergraduate student with a passion for sharing space science? We are excited to share with you a wonderful opportunity to become an official NASA Partner Eclipse Ambassador and help your community experience the awe and wonder of science. 

In this exciting NASA partnership funded through NASA’s Science Activation program, undergraduate students and experienced eclipse enthusiasts who become Eclipse Ambassadors will pair up to engage and prepare local communities in advance of the April 2024 solar eclipse. All training, partnerships, resources, and connections with local underserved partners will be provided. The program supports community outreach before the upcoming 2024 eclipse in communities off the path of totality. Undergraduates will also receive a stipend and opportunities to further their involvement in NASA programs. 

If this interests you, apply today. You can also find Eclipse Ambassadors near you via our Eclipse Ambassadors map. We are still recruiting and partnering hundreds of Eclipse Ambassadors across the U.S. through the end of 2023, but don’t hesitate. Your community needs you! 

What you’ll find when you apply:

  • A supportive network of enthusiasts who regularly share eclipse support
  • A partner in your community (each partnership consists of an undergraduate and an eclipse enthusiast)
  • Materials including solar viewing glasses, activities, handouts, and more 
  • Connections to local community centers reaching underserved audiences
  • Regular social hours and presentations from experts in eclipses and communication 
  • Opportunities to continue your journey with NASA through collaborations with partners in heliophysics, education, and communication
Four children stand with paper plates covering their faces. They are looking up toward the Sun.
People use handmade solar viewers to safely observe the Sun at Faulkner County Library in Arkansas.
Darcy Howard

Powered by WPeMatico

Get The Details…