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NASA Administrator Pays Tribute to Senior Advisor Mark Geyer


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    • By NASA
      4 min read
      Preparations for Next Moonwalk Simulations Underway (and Underwater)
      This image shows an aviation version of a smartphone navigation app that makes suggestions for an aircraft to fly an alternate, more efficient route. The new trajectories are based on information available from NASA’s Digital Information Platform and processed by the Collaborative Departure Digital Rerouting tool.NASA Just like your smartphone navigation app can instantly analyze information from many sources to suggest the best route to follow, a NASA-developed resource is now making data available to help the aviation industry do the same thing.
      To assist air traffic managers in keeping airplanes moving efficiently through the skies, information about weather, potential delays, and more is being gathered and processed to support decision making tools for a variety of aviation applications.
      Appropriately named the Digital Information Platform (DIP), this living database hosts key data gathered by flight participants such as airlines or drone operators. It will help power additional tools that, among other benefits, can save you travel time.
      Ultimately, the aviation industry… and even the flying public, will benefit from what we develop.
      Swati Saxena
      NASA Aerospace Engineer
      “Through DIP we’re also demonstrating how to deliver digital services for aviation users via a modern cloud-based, service-oriented architecture,” said Swati Saxena, DIP project manager at NASA’s Ames Research Center in California.
      The intent is not to compete with others. Instead, the hope is that industry will see DIP as a reference they can use in developing and implementing their own platforms and digital services.
      “Ultimately, the aviation industry – the Federal Aviation Administration, commercial airlines, flight operators, and even the flying public – will benefit from what we develop,” Saxena said.
      The platform and digital services have even more benefits than just saving some time on a journey.
      For example, NASA recently collaborated with airlines to demonstrate a traffic management tool that improved traffic flow at select airports, saving thousands of pounds of jet fuel and significantly reducing carbon emissions.
      Now, much of the data gathered in collaboration with airlines and integrated on the platform is publicly available. Users who qualify can create a guest account and access DIP data at a new website created by the project.
      It’s all part of NASA’s vision for 21st century aviation involving revolutionary next-generation future airspace and safety tools.
      Managing Future Air Traffic
      During the 2030s and beyond, the skies above the United States are expected to become much busier.
      Facing this rising demand, the current National Airspace System – the network of U.S. aviation infrastructure including airports, air navigation facilities, and communications – will be challenged to keep up. DIP represents a key piece of solving that challenge.
      NASA’s vision for future airspace and safety involves new technology to create a highly automated, safe, and scalable environment.
      What this vision looks like is a flight environment where many types of vehicles and their pilots, as well as air traffic managers, use state-of-the-art automated tools and systems that provide highly detailed and curated information.
      These tools leverage new capabilities like machine learning and artificial intelligence to streamline efficiency and handle the increase in traffic expected in the coming decades.
      Digital Services Ecosystem in Action
      To begin implementing this new vision, our aeronautical innovators are evaluating their platform, DIP, and services at several airports in Texas. This initial stage is a building block for larger such demonstrations in the future.
      “These digital services are being used in the live operational environment by our airline partners to improve efficiency of the current airspace operations,” Saxena said. “The tools are currently in use in the Dallas/Fort Worth area and will be deployed in the Houston airspace in 2025.”
      The results from these digital tools are already making a difference.
      Proven Air Traffic Results
      During 2022, a NASA machine learning-based tool named Collaborative Digital Departure Rerouting, designed to improve the flow of air traffic and prevent flight delays, saved more than 24,000 lbs. (10,886 kg.) of fuel by streamlining air traffic in the Dallas area.
      If such tools were used across the entire country, the improvements made in efficiency, safety, and sustainability would make a notable difference to the flying public and industry.
      “Continued agreements with airlines and the aviation industry led to the creation and expansion of this partnership ecosystem,” Saxena said. “There have been benefits across the board.”
      DIP was developed under NASA’s Airspace Operations and Safety Program.
      Learn about NASA’s Collaborative Digital Departure Rerouting tool and how it uses information from the Digital Information Platform to provide airlines with routing options similar to how drivers navigate using cellphone apps. About the Author
      John Gould
      Aeronautics Research Mission DirectorateJohn Gould is a member of NASA Aeronautics' Strategic Communications team at NASA Headquarters in Washington, DC. He is dedicated to public service and NASA’s leading role in scientific exploration. Prior to working for NASA Aeronautics, he was a spaceflight historian and writer, having a lifelong passion for space and aviation.
      Facebook logo @NASA@NASAaero@NASA_es @NASA@NASAaero@NASA_es Instagram logo @NASA@NASAaero@NASA_es Linkedin logo @NASA Explore More
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      Last Updated Jul 12, 2024 EditorJim BankeContactJim Bankejim.banke@nasa.gov Related Terms
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    • By NASA
      Apollo astronaut Buzz Aldrin poses for a photograph beside the deployed United States flag during an Apollo 11 moonwalk on July 20, 1969. The Lunar Module is on the left, and the footprints of the astronauts are clearly visible in the soil of the moon.Credit: NASA As the agency explores more of the Moon than ever before under the Artemis campaign, NASA will celebrate the 55th anniversary of the first astronauts landing on the Moon through a variety of in-person, virtual, and engagement activities nationwide between Monday, July 15, and Thursday, July 25.
      Events will honor America’s vision and technology that enabled the Apollo 11 crewed lunar landing on July 20, 1969, as well as Apollo-era inventions and techniques that spread into public life, many of which are still in use today. Activities also will highlight NASA’s Artemis campaign, which includes landing the first woman, first person of color, and first international astronaut on the Moon, inspiring great achievements, exploration, and scientific discovery for the benefit of all.
      NASA’s subject matter experts are available for a limited number of interviews about the anniversary. To request an interview virtually or in person, contact Jessica Taveau in the newsroom: jessica.c.taveau@nasa.gov.
      During the week of July 15, the agency also will share the iconic bootprint image and the significance of Apollo 11 to NASA’s mission, as well as use the #Apollo11 hashtag, across its digital platforms online.
      Additional activities from NASA include:
      Monday, July 15 and Tuesday, July 16, NASA’s Michoud Assembly Facility in New Orleans, Louisiana: NASA will host the rollout of the agency’s Artemis II SLS (Space Launch System) core stage. Friday, July 19, NASA’s Johnson Space Center in Houston: In a dedication and ribbon cutting, the center will name its building 12 the ‘Dorothy Vaughan Center in Honor of the Women of Apollo.’ Vaughan was a mathematician, computer programmer, and NASA’s first Black manager. Sunday, July 21, NASA’s Goddard Space Flight Center in Greenbelt, Maryland: NASA Goddard will host a model rocket contest conducted by the National Association of Rocketry Headquarters Astro Modeling Section. This free contest is open to all model rocketeers and the public.  Other activities include:
      Tuesday, July 16 through Wednesday, July 24, Space Center Houston: The center will host pop-up science labs, mission briefings, special tram tours that feature the Mission Control Center at NASA Johnson, and more. Friday, July 19 through Saturday, July 20, National Cathedral in Washington: The cathedral will host a festival marking the 50th anniversary of its Space Window, which contains a piece of lunar rock that was donated by NASA and the crew of Apollo 11. Thursday, July 25, San Diego Comic-Con: NASA representatives will participate in a panel entitled ‘Exploring the Moon: the Artemis Generation.’ Panelists are:Stan Love, NASA astronaut A.C. Charania, NASA chief technologist Dionne Hernandez-Lugo, NASA’s Gateway Program Jackelynne Silva-Martinez, NASA Human Health and Performance For more details about NASA’s Apollo Program, please visit:
      https://www.nasa.gov/the-apollo-program
      -end-
      Cheryl Warner / Jessica Taveau
      Headquarters, Washington
      202-356-1600
      cheryl.m.warner@nasa.gov / jessica.c.taveau@nasa.gov
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      Last Updated Jul 12, 2024 LocationNASA Headquarters Related Terms
      Apollo 11 Artemis View the full article
    • By NASA
      4 min read
      Preparations for Next Moonwalk Simulations Underway (and Underwater)
      Paul Dumbacher, right, lead test engineer for the Propulsion Test Branch at NASA’s Marshall Space Flight Center in Huntsville, Alabama, confers with Meredith Patterson, solid propulsion systems engineer, as they install the 11-inch hybrid rocket motor testbed into its cradle in Marshall’s East Test Stand. The new testbed, offering versatile, low-cost test opportunities to NASA propulsion engineers and their government, academic, and industry partners, reflects the collaboration of dozens of team members across multiple departments at Marshall. NASA/Charles Beason In June, engineers at NASA’s Marshall Space Flight Center in Huntsville, Alabama, unveiled an innovative, 11-inch hybrid rocket motor testbed.
      The new hybrid testbed, which features variable flow capability and a 20-second continuous burn duration, is designed to provide a low-cost, quick-turnaround solution for conducting hot-fire tests of advanced nozzles and other rocket engine hardware, composite materials, and propellants.
      Solid rocket propulsion remains a competitive, reliable technology for various compact and heavy-lift rockets as well as in-space missions, offering low propulsion element mass, high energy density, resilience in extreme environments, and reliable performance.
      “It’s time consuming and costly to put a new solid rocket motor through its paces – identifying how materials perform in extreme temperatures and under severe structural and dynamic loads,” said Benjamin Davis, branch chief of the Solid Propulsion and Pyrotechnic Devices Branch of Marshall’s Engineering Directorate. “In today’s fast-paced, competitive environment, we wanted to find a way to condense that schedule. The hybrid testbed offers an exciting, low-cost solution.”
      Initiated in 2020, the project stemmed from NASA’s work to develop new composite materials, additively manufactured – or 3D-printed – nozzles, and other components with proven benefits across the spacefaring spectrum, from rockets to planetary landers.
      After analyzing future industry requirements, and with feedback from NASA’s aerospace partners, the Marshall team recognized that their existing 24-inch rocket motor testbed – a subscale version of the Space Launch System booster – could prove too costly for small startups. Additionally, conventional, six-inch test motors limited flexible configuration and required multiple tests to achieve all customer goals. The team realized what industry needed most was an efficient, versatile third option.
      “The 11-inch hybrid motor testbed offers the instrumentation, configurability, and cost-efficiency our government, industry, and academic partners need,” said Chloe Bower, subscale solid rocket motor manufacturing lead at Marshall. “It can accomplish multiple test objectives simultaneously – including different nozzle configurations, new instrumentation or internal insulation, and various propellants or flight environments.”
      “That quicker pace can reduce test time from months to weeks or days,” said Precious Mitchell, solid propulsion design lead for the project.
      Engineers at NASA’s Marshall Space Flight Center in Huntsville, Alabama, assess components of the 11-inch hybrid rocket motor testbed in the wake of successful testing in June. Among Marshall personnel leading in-house development of the new testbed are, from left, Chloe Bower, subscale solid rocket motor manufacturing lead; Jacobs manufacturing engineer Shelby Westrich; and Precious Mitchell, solid propulsion design lead. NASA/Benjamin Davis Another feature of great interest is the on/off switch. “That’s one of the big advantages to a hybrid testbed,” Mitchell continued. “With a solid propulsion system, once it’s ignited, it will burn until the fuel is spent. But because there’s no oxidizer in hybrid fuel, we can simply turn it off at any point if we see anomalies or need to fine-tune a test element, yielding more accurate test results that precisely meet customer needs.”
      The team expects to deliver to NASA leadership final test data later this summer. For now, Davis congratulates the Marshall propulsion designers, analysts, chemists, materials engineers, safety personnel, and test engineers who collaborated on the new testbed.
      “We’re not just supporting the aerospace industry in broad terms,” he said. “We’re also giving young NASA engineers a chance to get their hands dirty in a practical test environment solving problems. This work helps educate new generations who will carry on NASA’s mission in the decades to come.”
      For nearly 65 years, Marshall teams have led development of the U.S. space program’s most powerful rocket engines and spacecraft, from the Apollo-era Saturn V rocket and the space shuttle to today’s cutting-edge propulsion systems, including NASA’s newest rocket, the Space Launch System. NASA technology testbeds designed and built by Marshall engineers and their partners have shaped the reliable technologies of spaceflight and continue to enable discovery, testing, and certification of advanced rocket engine materials and manufacturing techniques. 
      Learn more about NASA Marshall capabilities at:
      https://www.nasa.gov/marshall-space-flight-center-capabilities
      Ramon J. Osorio
      Marshall Space Flight Center, Huntsville, Alabama
      256-544-0034
      ramon.j.osorio@nasa.gov
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      Last Updated Jul 12, 2024 EditorBeth RidgewayLocationMarshall Space Flight Center Related Terms
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    • By NASA
      Portrait of retired NASA astronaut Joe Engle wearing flight suit in front of an X-15 fighter circa 1963. Retired NASA astronaut and U.S. Air Force Maj. Gen. Joe Engle died July 10, surrounded by his family at home in Houston. Among his many honors, he is the only astronaut to pilot both the X-15 and space shuttle. He was 91.
      Engle became an astronaut at age 32 while flying the X-15 for the U.S. Air Force, becoming the youngest pilot ever to qualify as an astronaut. When selected as a NASA astronaut candidate in 1966, he was the only person selected that was already engaged in spaceflight operations. He was the last surviving X-15 pilot.
      “A natural pilot, Gen. Joe Engle helped humanity’s dreams take flight – in the X-15 program, the Apollo Program, and as one of the first commanders in the Space Shuttle Program,” said NASA Administrator Bill Nelson. “He was one of the first astronauts I met at NASA’s Johnson Space Center in Houston. I’ll never forget his big smile, his warmth, and his courage. We all will miss him.” 
      Engle was born in Dickinson County, Kansas, and attended the University of Kansas, Lawrence, where he graduated with a degree in Aeronautical Engineering in 1955. He received his commission through the Air Force Reserve Officers Training Course, earning his pilot wings in 1958.
      As a NASA astronaut, he supported the Apollo Program, and was backup lunar module pilot for Apollo 14. In 1977, he served as commander of the space shuttle Enterprise, which used a modified Boeing 747 shuttle carrier aircraft to release Enterprise for approach and landing tests. In November 1981, he commanded the second flight of the space shuttle Columbia. He was the first and only pilot to manually fly an aerospace vehicle from Mach 25 to landing. He accumulated the last of his 224 hours in space when he commanded the space shuttle Discovery in August 1985, one of the most challenging shuttle missions ever. On that mission the crew deployed three commercial satellites and retrieved, repaired, and redeployed another malfunctioning satellite that had been launched on a previous shuttle mission.
      “As we mourn the immense loss of Joe, we’re thankful for his notable contributions to the advancement of human spaceflight,” said Vanessa Wyche, center director, NASA Johnson. “Joe’s accomplishments and legacy of perseverance will continue to inspire and impact generations of explorers for years to come.” 
      Engle flew more than 180 different aircraft types and logged more than 14,000 flight hours. His military decorations include the Department of Defense Distinguished Service Medal, U.S. Air Force Distinguished Service Medal, and the Air Force Distinguished Flying Cross with Oak Leaf Cluster. He has received the NASA Distinguished Service Medal and Space Flight Medal, as well as the Harmon International Aviation Trophy, the Collier Trophy, the Goddard Space Trophy, the Gen.
      Thomas D. White Space Trophy, and the Kinchelow Experimental Test Pilot’s Trophy. In 1992, he was inducted into the Aerospace Walk of Honor.
      “Joe Henry was a loving husband, father, and grandfather. Blessed with natural piloting skills, General Joe, as he was known to many, was at his happiest in any cockpit. Always with a smile, he lived a fulfilled life as a proud American, U.S. Air Force pilot, astronaut, and Kansas Jayhawk,” said his wife, Jeanie Engle. “His passing leaves a tremendous loss in our hearts. We take comfort that he has joined Tom Stafford and George Abbey, two of the best friends anyone could ask for.”
      Learn more about Engle’s life as an astronaut and pilot:
      https://www.nasa.gov/aeronautics/the-x-15-the-pilot-and-the-space-shuttle/
      -end-
      Faith McKie / Cheryl Warner
      Headquarters, Washington
      202-358-1600
      faith.d.mckie@nasa.gov / cheryl.m.warner@nasa.gov
      Chelsey Ballarte / Courtney Beasley
      Johnson Space Center, Houston
      281-483-5111
      chelsey.n.ballarte@nasa.gov / courtney.m.beasley@nasa.gov  
      View the full article
    • By NASA
      NASA Deputy Administrator Pam Melroy gives keynote remarks during the 37th Space Symposium, April 5, 2022, in Colorado Springs, Colorado.Credits: NASA/Bill Ingalls NASA Deputy Administrator Pam Melroy will visit Japan and the Republic of Korea beginning Thursday, July 11, to underscore the critical role of international cooperation in advancing space exploration and technology development.
      During her week-long visit to the region, Melroy will engage with ministers and other senior government officials in both countries, including leaders from JAXA (Japan Aerospace Exploration Agency) and KASA (Korea AeroSpace Administration) to strengthen partnerships and highlight civil space cooperation.
      In Tokyo, Melroy will participate in the Secure World Foundation’s 6th Summit for Space Sustainability, highlighting NASA’s leadership in responsible and sustainable operations amid rapid technological advancements, many of them championed by the agency.
      NASA and JAXA are working to advance sustainable human exploration of the Moon. NASA announced in April that Japan will design, develop, and operate a pressurized rover for exploration of the lunar surface. The activity is part of a shared goal for a Japanese national to be the first non-American to land on the Moon as part of a future Artemis mission, assuming important benchmarks are achieved. In addition, NASA and JAXA are advancing goals in climate research and space science missions to benefit humanity.
      Melroy also will speak alongside other space agency leaders at the 45th Scientific Assembly of the Committee on Space Research in Busan, Korea, emphasizing opportunities for international and commercial collaboration in space research.
      The visit to Korea coincides with the recent establishment of KASA and builds upon decades of collaboration with NASA in exploration, Earth and space science, and aeronautics.
      For more information about NASA’s international partnerships, visit:
      https://www.nasa.gov/oiir
      -end-
      Amber Jacobson
      Headquarters, Washington
      202-358-1600
      amber.c.jacobson@nasa.gov
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      Last Updated Jul 10, 2024 LocationNASA Headquarters Related Terms
      Earth's Moon Office of International and Interagency Relations (OIIR) View the full article
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