NASA Selects Marshall Logistics Support Services II Contractor

NASA Selects Marshall Logistics Support Services II Contractor

Image of the NASA logo
Credit: NASA

NASA has awarded the MSFC Logistics Support Services II (MLSS II) contract to Akima Global Logistics, LLC to provide logistics support services at the agency’s Marshall Space Flight Center in Huntsville, Alabama.

The performance-based indefinite-delivery/indefinite-quantity contract has a maximum potential value of $96.3 million. The contract begins on Sunday, Sept. 1 with a one-year base period, followed by one-year option periods that may be exercised at NASA’s discretion.

Under the competitive 8(a) contract, the company will be responsible for providing logistics services supporting NASA Marshall’s institutional operational framework. The logistics support services provided through contractor support cover the areas of management, disposal operations, equipment, mail, transportation, life cycle logistics, supply chains, and other specialty services.

For information about NASA and agency programs, visit: 

https://www.nasa.gov

-end-

Tiernan Doyle
Headquarters, Washington
202-358-1600
tiernan.doyle@nasa.gov

Share

Details

Last Updated

Jul 25, 2024

Powered by WPeMatico

Get The Details…
Tiernan P. Doyle

Meet NASA Interns Shaping Future of Open Science

Meet NASA Interns Shaping Future of Open Science

3 min read

Meet NASA Interns Shaping Future of Open Science

NASA intern Lena Young leans against a red NASA sign in front of NASA's Earth Information Center.
Intern Lena Young, whose work revolves around DEIA and open science, stands next to a NASA sign at NASA’s Earth Information Center in Washington, D.C.
Photo courtesy of Lena Young

Students at NASA’s Office of the Chief Science Data Officer (OCSDO) are working to promote open science during the summer 2024 internship session. Their projects fall across a variety of areas, including user experience, policy, and DEIA (Diversity, Equity, Inclusion, and Accessibility). 

Lena Young: Increasing DEIA Engagement

Lena Young, a doctoral candidate in the Creative Leadership for Innovation and Change program at the University of the Virgin Islands in St. Thomas, envisions equitable space societies 100 – 300 years in the future as part of her dissertation. Her NASA internship project involves researching ways to make science more accessible for different groups and interacting with NASA leadership to assess how well they are engaging historically underserved or excluded communities.

Young also worked with her mentors to find overlap between her internship project and her PhD work as a futurist. “In 30 years, once NASA has achieved their goals, what would open science look like?” Young said. “I want to see what different futures I can create for open science and DEIA engagement.” 

Becca Michelson: Advancing Policy

Becca Michelson has a passion for increasing the availability of scientific information. A soon-to-be-graduate in physics and astronomy from Smith College in Northampton, Massachusetts, she was drawn to an internship role in researching the current state of open science policy for the OCSDO. By understanding the challenges and opportunities in this area, she’s helping NASA better support researchers in making their science accessible to all.

“Open science makes this a more inclusive field, where if I’m an early career scientist, I can build on the science that other people who are experts in the field have done,” Michelson said. In the future, she hopes to implement open science principles into her own research in astronomy, drawing from the best practices she has learned at NASA.

Salma Elsayed-Ali: Bridging Science, User Experience

Salma Elsayed-Ali is on a mission to bridge the gap between science and usability. She recently completed her PhD in Information Science with a focus on Human-Computer Interaction from the University of Maryland, College Park. Her NASA internship project involves conducting UI/UX (User Interface/User Experience) research on some of the OCSDO’s scientific products, most notably the Open Science 101 online course.

Elsayed-Ali became interested in open science during the height of the COVID-19 pandemic, when she conducted UI/UX research on open data sites that provided the public with real-time information about the spread of the virus. This experience sparked her interest in helping users reap the benefits of open science as part of an internship with NASA. 

In improving the OCSDO’s open science interfaces, Elsayed-Ali has acted as the product lead on a UI/UX research project for the first time. “I was drawn to this project as it was an opportunity to advocate for both end users and the advancement of open science,” Elsayed-Ali said. “I have really enjoyed brainstorming creative, practical solutions that enhance the user experience and simultaneously save the product team time and resources.”

By helping open science at NASA to thrive, these interns are ushering in a future of greater access to data and scientific research. Learn more about NASA internships at the NASA Internship Programs page.

Learn to navigate the principles and practices of open science with the Open Science 101 online course.

By Lauren Leese 
Web Content Strategist for the Office of the Chief Science Data Officer 

Share

Details

Last Updated
Jul 25, 2024

Related Terms

Powered by WPeMatico

Get The Details…

Tech Today: Space Age Swimsuit Reduces Drag, Breaks Records

Tech Today: Space Age Swimsuit Reduces Drag, Breaks Records

2 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

The LZR Racer reduces skin friction drag by covering more skin than traditional swimsuits. Multiple pieces of the water-resistant and extremely lightweight LZR Pulse fabric connect at ultrasonically welded seams and incorporate extremely low-profile zippers to keep viscous drag to a minimum.
Credit: SpeedoUSA

A supersonic airplane and a competitive swimmer have much more in common than people might realize; both have to contend with the slowing influence of drag. NASA’s Aeronautics Research Mission Directorate focuses primarily on improving flight efficiency and fluid dynamics, especially the forces of pressure and drag, which are the same for bodies moving through air as for bodies moving through water. Shortly after the 2004 Olympics, Los Angeles-based SpeedoUSA, also known as Speedo, asked NASA’s Langley Research Center to help design a swimsuit with reduced surface drag. The manufacturer sought a partnership with NASA because of the agency’s expertise in fluid dynamics.

In competitive swimming, where every hundredth of a second counts, achieving the best possible drag reduction is crucially important. Researchers at NASA began flat plate testing of fabrics, using a small wind tunnel developed for earlier research on low-speed viscous drag reduction and collaborated over the next few years with Speedo to design the LZR Racer swimsuit.

Researcher Corey Diebler inspects an eight percent scale model of the X-59 in NASA Langley's 12-Foot Low Speed Tunnel
Researcher Corey Diebler inspects a model of the supersonic X-59 after a test in Langley Research Center’s 12 foot wind tunnel. Wind tunnel testing at Langley enabled Speedo’s LZR Racer to achieve its excellent underwater performance.
NASA/David C. Bowman.

NASA and Speedo performed tests on traditionally sewn seams, ultrasonically welded seams, and the fabric alone, which gave Speedo a baseline for reducing drag caused by seams and helped identify problem areas. NASA wind tunnel results helped Speedo create a bonding system that eliminates seams and reduces drag. The results also showed that a low-profile zipper ultrasonically bonded into the fabric inside the suit generated eight percent less drag in wind tunnel tests than a standard zipper. Low-profile seams and zippers were a crucial component in the LZR Racer, because the suit consists of multiple connecting fabric pieces—instead of just a few sewn pieces such as found in traditional suits—that provide extra compression for maximum efficiency.

In March 2008, the LZR Racer made its mark on the world of competitive swimming. Athletes donning this innovative swimsuit shattered 13 world records, a testament to the power of collaboration between NASA and Speedo. While the original LZR Racer is no longer used in competition because of the advantage it gave wearers, its legacy lives on in today’s swimsuits approved by World Aquatics, the governing body for international competitive swimming. 

Powered by WPeMatico

Get The Details…
Andrew Wagner

A Saturnian Summer

A Saturnian Summer

NASA’s Hubble Space Telescope captured this image of Saturn on July 4, 2020. Two of Saturn’s icy moons are clearly visible in this exposure: Mimas at right, and Enceladus at bottom. This image is taken as part of the Outer Planets Atmospheres Legacy (OPAL) project. OPAL is helping scientists understand the atmospheric dynamics and evolution of our solar system’s gas giant planets. In Saturn’s case, astronomers continue tracking shifting weather patterns and storms.

Powered by WPeMatico

Get The Details…

Ultrasound Scans for Crew Today on Station Promoting Health

Ultrasound Scans for Crew Today on Station Promoting Health

The Milky Way appears in the vastness of space behind the dimly lit SpaceX Dragon Endeavour spacecraft docked to the space station's Harmony module.
The Milky Way appears in the vastness of space behind the dimly lit SpaceX Dragon Endeavour spacecraft docked to the space station’s Harmony module.

Human research to protect crew health was the dominant science topic aboard the International Space Station on Wednesday. Household duties such as cleaning and inspections to keep the orbital outpost in tip-top shape also continued in low Earth orbit for the nine lab crewmates.

Researchers have learned that living in the weightless environment for months at a time affects the human body in numerous ways. Scientists constantly examine crews working on the space station to understand the space-caused physiological changes. Observations will help doctors develop countermeasures and keep astronauts healthy as NASA plans months long and possibly years long missions beyond low Earth orbit and to the Moon, Mars, and beyond.

Flight Engineers Matthew Dominick and Jeanette Epps partnered together all-day Wednesday to test a thigh cuff that may reverse fluid shifts that impact a crew member’s vision while living in space. Dyson attached sensors to her chest and the cuff to her leg with assistance from Epps during the morning. Next, Epps scanned Dominick’s veins with the Ultrasound 2 device then measured his blood pressure. Epps also examined Dominick’s eyes using standard medical imaging hardware found in an optometrist’s office on Earth. The thigh cuff study is exploring ways to prevent headward fluid shifts in astronauts that cause eye structure and vision changes.

Ultrasound scans were also on the schedule for NASA astronauts Mike Barratt from Expedition 71 and Butch Wilmore from Boeing’s Crew Flight Test to image an astronaut’s veins following an exercise session. Barratt led the biomedical work and scanned Wilmore’s veins after his hourlong workout on the advanced resistive exercise device. Barratt used the commercial ButterlyIQ Ultrasound imaging device during the 90-minute research session to understand how the human body adjusts to exercising in space. Results may also demonstrate the effectiveness of the FDA-approved portable scanner for space operations.

Expedition 71 Flight Engineer Tracy C. Dyson and Starliner Pilot Suni Williams from NASA spent their day on maintenance tasks including housecleaning and science hardware installations. Dyson started her morning cleaning the starboard side of the Unity module and organizing cargo stowed in the Columbus laboratory module. During the afternoon, she went back to Unity and wiped down surfaces in its deck compartment. Williams was back inside the Tranquility module finalizing the installation of the ArgUS Mission 1 hardware inside the NanoRacks Bishop airlock. The advanced technology demonstration will be placed outside in the vacuum of space to test the external operations of communications, computer processing, and high-definition video gear.

Over in the Roscosmos segment of the orbiting lab, Commander Oleg Kononenko kicked off his day exploring futuristic spacecraft and robotic piloting techniques crews may use on planetary missions. He worked the rest of the day continuing inspections in the aft end of the Zvezda service module. Flight Engineer Nikolai Chub began his shift with the ongoing Zvezda inspections then wrapped up his day servicing a Roscosmos oxygen generator.

Powered by WPeMatico

Get The Details…

Mark Garcia