NASA, US Department of Commerce Expand Minority Business Efforts

NASA, US Department of Commerce Expand Minority Business Efforts

NASA Deputy Administrator Pam Melroy speaks with Under Secretary of Commerce for Minority Business Development, Donald Cravins, Jr., Tuesday, Oct. 17, 2023, at the Mary W. Jackson NASA Headquarters building in Washington.
NASA/Aubrey Gemignani

NASA and the U.S. Department of Commerce Minority Business Development Agency (MBDA) signed a memorandum of understanding (MOU) on Dec. 28, 2023, to help connect minority businesses to NASA acquisition and development opportunities. Outreach efforts will focus on engaging both minority and other underserved businesses.

With a term of three years, the MOU enables the continuous efforts of both agencies’ longstanding partnership to foster, promote, and develop the nation’s minority business enterprises in the aerospace industry, and highlights the Biden-Harris Administration’s economic investments in the sector. NASA and MBDA have a history of collaboration; this further solidifies a partnership to work towards mitigating barriers to equity.

“At NASA, we explore for the benefit of all humanity, and as we venture deeper into the cosmos, we are dedicated to developing partnerships that bring diverse perspectives and talent to the forefront,” said NASA Deputy Administrator Pam Melroy. “Creating equitable and inclusive opportunities allows everyone to experience the strategic and economic advantages of exploring space.”

Under the terms of the agreement, the agencies will work together to highlight subject-matter experts within the federal government and private sector who can support initiatives to help minority business enterprises seeking NASA acquisition opportunities. The Minority Development Business Agency will use its network of business centers and programs to promote these opportunities with NASA.

“The Minority Business Development Agency is collaborating with NASA to ensure minority and other underserved businesses have the opportunities to help humanity explore worlds beyond our own,” said Donald Cravins, Jr., Under Secretary of Commerce for Minority Business Development. “Through this collaboration, MBDA will work closely with NASA to identify aerospace industry initiatives, support outreach efforts, and foster federal partnership opportunities for the businesses we serve. As opportunities in the aerospace industry continue to expand to new frontiers, MBDA is committed to helping guide federal investments with equity and intention.”

Through this effort, NASA and MBDA aim to boost equitable participation of minority businesses in aerospace technology and scientific discovery by identifying and addressing barriers and policy gaps.

Learn more about NASA’s Office of Small Business Programs at:

https://www.nasa.gov/osbp/

-end-

Amber Jacobson / Roxana Bardan
Headquarters, Washington
202-358-1600
amber.c.jacobson@nasa.gov / roxana.bardan@nasa.gov

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Roxana Bardan

New Study Updates NASA on Space-Based Solar Power

New Study Updates NASA on Space-Based Solar Power

3 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

New Set of Solar Fireworks
The sun emitted a significant solar flare, peaking at 2:14 p.m. EDT on Oct. 20, 2012 NASA’s Solar Dynamics Observatory (SDO) captured this image of an M9-class flare on Oct 20, 2012 at 2:14 p.m. EDT.

Space-based solar power offers tantalizing possibilities for sustainable energy – in the future, orbital collection systems could harvest energy in space, and beam it wirelessly back to Earth. These systems could serve remote locations across the planet to supplement the terrestrial power transmission infrastructure required today.

Countries around the world are investing in space-based solar power research and development, and international organizations are focused on reducing carbon emissions to net-zero by 2050. NASA is considering how best to support space-based solar power development. “Space-Based Solar Power,” a new report from the NASA’s Office of Technology, Policy, and Strategy (OTPS) aims to provide NASA with the information it needs to determine how it can support the development of this field of research.

“This analysis compares the lifecycle cost of two conceptual space-based solar power systems versus their potential for net emissions reductions,” said Charity Weeden, who leads NASA OTPS. “By considering scenarios like these, OTPS helps NASA understand the technological, policy, and economic implications that would need to be addressed.”

The OTPS report considered the conditions under which space-based solar power would be a competitive option to achieving net-zero greenhouse gas emissions when compared to other sustainable solutions. The report also considered what role NASA could play in the development of space-based solar power systems.

Creating a space-based solar power system would require addressing several significant capability gaps. Researchers would need to find ways to assemble and maintain large systems in orbit, enable those systems to operate autonomously, and develop efficient power-beaming to bring the harvested energy to Earth. These systems may need to operate in geostationary orbit, higher than the low-Earth orbit paths used by many of today’s satellites, which would carry additional challenges.

And prior to the point of bringing space-based solar power systems online, launch and manufacturing costs would need to be addressed – moving all that mass into orbit would require many sustained missions to carry infrastructure into space.

The OTPS report considered the potential of a space-based solar power system that could begin operating in 2050. Based on that timeline, the report found that space-based solar power would be more expensive than terrestrial sustainable alternatives, although those costs could fall if current capability gaps can be addressed. The report shows that emissions from space-based solar power could be similar to those from terrestrial alternative power sources but it noted that this issue requires more detailed assessments.

NASA is already developing technologies for its current mission portfolio that will indirectly benefit space-based solar power, the report found. These include projects focusing on the development of autonomous systems, wireless power beaming, and in-space servicing, assembly, and manufacturing.

NASA frequently reevaluates how it approaches issues that could affect the agency’s missions. The report noted that further analysis of space-based solar power could be warranted – including evaluations of the technology for potential lunar applications – as the technology progresses and capability gaps are addressed.

The report and other OTPS documents advising NASA on technology, policy, and strategy issues are available on the office’s webpage.

SpaceBased Solar Power (PDF)

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Jan 11, 2024

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Bill Keeter

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Bill Keeter

NASA Selects Crew for Next Simulated Mars Mission

NASA Selects Crew for Next Simulated Mars Mission

NASA selected a crew of four for the agency’s next Human Exploration Research Analog mission, a simulated mission to Mars. From left are Abhishek Bhagat, Susan Hilbig, Kamak Ebadi, and Ariana Lutsic.  
Credit: HERA C7 Crew   

NASA selected a crew of four volunteers to participate in a simulated journey to Mars inside a habitat at the agency’s Johnson Space Center in Houston. 

Abhishek Bhagat, Kamak Ebadi, Susan Hilbig, and Ariana Lutsic will enter the ground-based HERA (Human Exploration Research Analog) facility on Friday, Jan. 26, to live and work like astronauts for 45 days during the simulated mission to the Red Planet. Crew members will exit the facility on March 11, after they “return” to Earth. Two additional volunteers are available as backup crew members.

Without leaving Earth, HERA allows scientists to study how crew members adapt to the isolation, confinement, and work conditions astronauts will experience during future spaceflight missions. Crew members will conduct science, operational, and maintenance tasks while facing communication delays with the outside world lasting up to five minutes as they “approach” Mars.

The new crew will participate in 18 human health studies throughout the simulated mission. The experiments will assess the psychological, physiological, and behavioral responses of crew members millions of miles away from their home planet. Ten studies are new to HERA, including seven led by scientists outside the United States. These international studies are collaborations with the United Arab Emirates’ Mohammed Bin Rashid Space Centre and ESA (European Space Agency).

The upcoming mission marks the first of four simulated missions to Mars that researchers will carry out using HERA in 2024. Each mission will include a different crew of four astronaut-like research volunteers. The final mission is slated to end Dec. 16.

Primary Crew

Abhishek Bhagat

Abhishek Bhagat headshotAbhishek Bhagat is a research electrical engineer for the U.S. Army Engineering Research and Development Center’s Cold Region Research and Engineering Lab. 

Bhagat holds a bachelor’s degree in engineering from Nagpur University in India, a master’s degree in electrical engineering from California State University in Northridge, and a master’s degree in computer science from the University of North America in Fairfax, Virginia. He is currently pursuing a master’s degree in space systems from the Florida Institute of Technology in Melbourne. 

Bhagat began working as a consultant at Samsung Telecom America, which paved the way for subsequent consulting roles with Qualcomm and Sprint. He then served in the U.S. Army. When he transitioned out of active duty, he became an electronics engineer for the Federal Aviation Administration. 

Bhagat received the Army Commendation Medal and remains an Army reservist. In his spare time, he enjoys hiking, climbing mountains, and riding motorcycles.

Kamak Ebadi

Kamak Ebadi is a robotics technologist at NASA’s Jet Propulsion Laboratory (JPL) in Southern California. He is a member of the spaceflight operations team responsible for managing NASA’s Perseverance Rover on Mars. Ebadi also supports NASA’s Artemis program and Mars Sample Return mission through work that helped develop orbital maps and navigation algorithms for the guided descent and precision landing of autonomous spacecraft on the Moon and Mars. 
 
Born in Tehran, Iran, Ebadi relocated to the United States in 2010, driven by his lifelong aspiration to join NASA. He earned his doctorate in robotics from Santa Clara University in California. He was awarded a doctoral fellowship from JPL in 2017 and helped develop a fleet of autonomous robots to explore uncharted subterranean environments. 
 
Ebadi completed postdoctoral research jointly at the California Institute of Technology in Pasadena and JPL. He developed algorithms that control in-space docking and manipulation of uncooperative space objects, such as defunct satellites and asteroids. 
 
In his spare time, Ebadi participates as a board member for a non-profit organization committed to disrupting the cycle of poverty through education. He advocates for STEM education and engages as a space and science communicator across various social media platforms. He enjoys spending quality time with his family, playing the guitar, participating in sports, maintaining a strict fitness routine, and learning to pilot private aircraft.

Susan Hilbig

Susan Hilbig headshotSusan Hilbig, from Durham, North Carolina, is a physician assistant with a focus on aerospace medicine and human performance in isolated, confined environments. She completed her academic training at North Carolina’s Duke University, where she double majored in biology and Earth and ocean science prior to earning a master’s degree in physician assistant studies from Duke University’s School of Medicine.

Hilbig’s passion for exploration led her to pursue research at remote field sites as an undergraduate, taking her across the world for various projects. Most notably, she traveled to the village of Tsinjoarivo, Madagascar, where she collected data on wild populations of the only lemur known to hibernate. Prior to graduate school, Hilbig worked as a clinical research coordinator in neuroscience with a focus on non-invasive brain stimulation. She subsequently worked as a physician assistant in Duke University’s emergency department.

Hilbig has experience with simulated extreme environments in hyperbaric chambers at Duke University’s Dive Medicine Center. As an avid cyclist, Hilbig has spent years leading weeklong cycling tours in Europe, with a regional focus on the Balkans and Northern Italy. Hilbig is a triathlete and general outdoor enthusiast who enjoys hiking, swimming, and scuba diving.

Ariana Lutsic

Ariana Lutsic headshotAriana Lutsic is a scientist and engineer at NASA’s Kennedy Space Center in Florida, specializing in research support for biological payloads on the International Space Station. Over the past seven years, she has held various roles at Kennedy, focusing on plants, animals, and hardware design.

Prior to her work at Kennedy, Lutsic volunteered with conservation and rehabilitation programs at the Sea Turtle Healing Center at the Brevard Zoo. She also served as a kayak guide for bioluminescent tours in the Indian River Lagoon in Florida.

Lutsic obtained her bachelor’s degree in communications from the University of Maryland Global Campus while living in Japan, and earned a master’s degree in space systems from the Florida Institute of Technology. She is currently pursuing another master’s degree at the Florida Institute of Technology, with emphases on marine biology and astrobiology. In her spare time, she enjoys volunteering with STEM programs, coaching youth soccer, and going to the beach with her family.

Back-Up Crew

Gregory Contreras

Gregory Contreras headshotLieutenant Commander Gregory “GM” Contreras is a planner and budget programming analyst for the U.S. Navy’s Integration and Programming Division. He is a native of Pleasant Hill, Calif.

During his 20 years in the Navy, Contreras worked as a surface warfare officer aboard the USS Chafee in Pearl Harbor, Hawaii. He also served as a space systems engineer and technical representative at the U.S. Department of Defense’s National Reconnaissance Office and as an engineering, technical, and logistics adviser on behalf of the United States for the Royal Saudi Navy. 

Contreras earned bachelor’s degrees in naval science and in mechanical engineering in 2007 from the University of Idaho in Moscow. In 2013, he completed a master’s degree in astronautical engineering from the Naval Postgraduate School, Monterey, Calif. His master’s thesis focused on space controls and robotics. He also earned a second master’s degree in engineering administration from Virginia Tech in Fairfax in 2017.

Contreras and his wife have three daughters — Lucia, Alexandra, and Claire — and a cat named Mimi. His passions include playing with his daughters, diving, surfing, and taking long breaks in nature with the family recreational vehicle.

Carli Domenico

Carli Domenico headshotCarli Domenico is a neuroscientist from San Antonio, Texas. She received her doctorate at Baylor College of Medicine, where she studied neural circuits in animal models from pigeons to rats for research that specialized in learning and memory. She has presented her work through talks at conferences, universities, and workshops, and has published in several journals.

In pursuit of impactful science communication, Domenico serves as director of academic and professional programming for the Intercollegiate Psychedelics Network. Domenico has also taught courses and programs in STEM for students in middle school, high school, and college.

Domenico received a Bachelor of Science with honors from Texas A&M University, College Station. She interned at Johnson, investigating astronaut cognition and sleep for long-duration spaceflight. Her thesis research included an independent study investigating inflammation and chronic pain in humans.

She recently received her certification as a yoga instructor. In her free time, she teaches at her community’s aging center, where she volunteers by leading activities and delivering meals. Domenico lives in Cleveland with her husband, golden retriever, and two cats. She enjoys live music, hiking, yoga, cooking, and soccer. 

____

NASA’s Human Research Program, or HRP, pursues the best methods and technologies to support safe, productive human space travel. Through science conducted in laboratories, ground-based analogs, and the International Space Station, HRP scrutinizes how spaceflight affects human bodies and behaviors. Such research drives HRP’s quest to innovate ways that keep astronauts healthy and mission-ready as space travel expands to the Moon, Mars, and beyond.

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Nathan Cranford

Robotics and Space Biology Fill Research Schedule on Station

Robotics and Space Biology Fill Research Schedule on Station

JAXA astronaut Satoshi Furukawa works on carbon dioxide removal hardware inside the Destiny laboratory module.
JAXA astronaut Satoshi Furukawa works on carbon dioxide removal hardware inside the Destiny laboratory module.

The Expedition 70 crew focused its research on robotics, artificial organs, and eye checks aboard the International Space Station today. The orbital septet also worked on a variety of life support and science maintenance tasks throughout Wednesday.

NASA Flight Engineer Loral O’Hara began Tuesday configuring an experiment that will explore how CubeSats fitted with a robotic arm might be used to repair larger satellites. She set up hardware inside the Destiny laboratory module’s Microgravity Science Glovebox for the experiment that seeks to demonstrate the on-orbit survey and repair of satellites.

Afterward, O’Hara moved to the Kibo laboratory module and treated and stowed samples that will be analyzed to understand reproductive health and bone loss in microgravity. NASA Flight Engineer Jasmin Moghbeli cleaned up Kibo’s Life Science Glovebox and stowed the research hardware following O’Hara’s sample work.

Earlier in the day, Moghbeli assisted Commander Andreas Mogensen from ESA (European Space Agency) as he swapped out components that analyze elements in the space station’s air. At the end of the day, Moghbeli scanned the eyes and retinas of Mogensen and O’Hara using standard medical imaging gear, analogous to ultrasound imaging, found in a doctor’s office on Earth.

Flight Engineer Satoshi Furukawa from JAXA (Japan Aerospace Exploration Agency) spent his day working with a pair of microscopes. During the morning, Furukawa activated the Confocal microscope to image organoid culture samples for an investigation exploring regenerative medicine, or the creation of artificial organs in microgravity. In the afternoon, the two-time station resident from JAXA set up the Kermit microscope for a ground-commanded check out of its imaging ability during a vibration test.

Veteran cosmonaut Oleg Kononenko continued his inspections inside the Zvezda service module then videotaped and photographed his crewmates at work aboard the orbital lab. Roscosmos Flight Engineer Nikolai Chub tested a laptop computer in the Nauka science module, transferred fluids into the Progress 86 cargo craft, and photographed panels inside the Poisk module at the end of the day. Cosmonaut Konstantin Borisov spent his day cleaning ventilation systems and electronics gear in the Nauka and Zvezda modules.


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/

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Mark Garcia

Orbital-1 Launch: 10th Anniversary

Orbital-1 Launch: 10th Anniversary

An Orbital Sciences Corporation Antares rocket is seen as it launches from Pad-0A at NASA’s Wallops Flight Facility, Thursday, January 9, 2014, Wallops Island, VA. Antares is carrying the Cygnus spacecraft on a cargo resupply mission to the International Space Station. The Orbital-1 mission is Orbital Sciences’ first contracted cargo delivery flight to the space station for NASA. Cygnus is carrying science experiments, crew provisions, spare parts and other hardware to the space station. Photo Credit: (NASA/Bill Ingalls)

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