the ISS National Lab Announces “What Would You Send to the ISS” Crowdsourcing Winners
KENNEDY SPACE CENTER, FL. (October 14, 2013) – The Center for Advancement of Science in Space (the ISSInternational Space Station National Lab), the nonprofit organization managing research onboard the International Space Station (ISS) U.S. National Laboratory, today announced the winners from the crowdsourcing contest “What Would You Send to the ISS?” This contest was designed to stimulate public interest in the space station by soliciting ideas from the public to innovatively use the station’s National Lab for terrestrial benefit.
the ISS National Lab routinely develops Requests for Proposals (RFP) based on input from its Science Advisory Board and staff, pointing to trends in modern research that might be plausible to explore on the National Lab. Through the winning solicited ideas from its crowdsourcing contest, the ISS National Lab hopes to build additional RFPs in the areas of life sciences, physical sciences, Earth observation and technology development that have not previously been identified by staff, further expanding and diversifying the National Lab research portfolio.
The contest ran from August 19 through September 16, receiving overwhelming response from the public at large. Additionally, the ISS National Lab involved public participation in the voting process to determine winners along with votes from the the ISS National Lab Science Advisory Board.
Grand prize winner:
Elizabeth MacDonald – Real-time Auroral Imaging on the ISS
Elizabeth is interested in conveying the beauty of science from space. Her idea is to fly a geo-tagged video camera to the International Space Station to capture the northern and southern lights in real time. Captured images can be displayed on the Aurorasaurus website, which includes a real time map tracking Earth observations of the auroras via various sources—including social media. In addition to improving this online platform, images of the northern and southern lights from ISS can be used as data to improve space weather forecasting and to better understand auroral behavior.
Runners up:
Chun-Ti Chang – Testing the ‘Atomic Spectra’ Of Excited Sessile Drops
This entry suggests using microgravityThe condition of perceived weightlessness created when an object is in free fall, for example when an object is in orbital motion. Microgravity alters many observable phenomena within the physical and life sciences, allowing scientists to study things in ways not possible on Earth. The International Space Station provides access to a persistent microgravity environment. to better understand movement within fluid droplets as it relates to Earth-based 3-D printing, personalized medicine and microelectronic circuits for semiconductors. Larger fluid droplets can be made in microgravity and analyzed to yield higher resolution data.
James Goodman – An ISS CubeSatSmall satellites that use a standard size and form factor, traditionally measuring 10 cm x 10 cm x 10 cm in size that may be deployed from the space station to conduct research and technology development. Laboratory Using Arduinos and 3D Printing
This idea seeks to improve the small satellite capabilities of the ISS National Lab by on-orbit manufacturing of CubeSats. By combining 3-D printing and Arduino technology (small microcontrollers used in electronics) in space, the ISS can be a manufacturing platform. This could be particularly useful for improving response to time-critical events, such as satellite imaging of natural disasters.
Khalid Marhlaoui – Materials Melting in Microgravity+Vacuum
This entry suggests improving materials science capabilities on the ISS National Lab by sending metal-melting furnace hardware to space. This could help in the analysis of existing functional materials and the discovery of new alloys for Earth applications.
Jonathan Morris – Impact of Space on Commensal Microbiota and Host Response
This entry suggests studying commensal (“healthy”) bacteria in space. Since microgravity alters the way bacteria grow and interact with each other and their human hosts, studies of these bacteria in humans in space will inform us about human health and diseases like diabetes and Crohn’s disease on Earth.
Elizabeth McDonald, the grand prize winner, will receive $10,000 and a trip to Florida to witness the ISS National Lab payloads launching to the ISS. She will also have the opportunity to meet with the ISS National Lab staff on potentially converting her research ideas into a National Lab project or projects. The second prizes winners will all receive $5,000 each.
“I am very excited to have won and grateful to the ISS National Lab for this amazing opportunity,” said grand prize winner Elizabeth McDonald. “The Aurorasaurus citizen science project aims to connect observers of the northern lights in real-time using social media, allowing more people opportunities to see their extraordinary beauty. Incorporating observations from the orbiting space station will be a unique vantage point and tremendous resource for our growing community.”
the ISS National Lab evaluates unsolicited proposals on a regular basis for scientific and economic merit and potential impact. In some instances, the ISS National Lab can provide funding to assist highly qualified research to be performed on the ISS U.S. National Laboratory.
For additional information about unsolicited proposals, including instructions on submitting research ideas, please visit: issnationallab.org/Opportunities/UnsolicitedProposals.aspx
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About the ISS National Lab: The Center for the Advancement of Science in Space (the ISS National Lab) was selected by NASANational Aeronautics and Space Administration in July 2011 to maximize use of the International Space Station (ISS) U.S. National Laboratory through 2020. the ISS National Lab is dedicated to supporting and accelerating innovations and new discoveries that will enhance the health and wellbeing of people and our planet. The the ISS National Lab goal is to bring the magic of space down to earth. For more information, visit issnationallab.org.
About the ISS National Laboratory: In 2005, Congress designated the U.S. portion of the International Space Station as the nation’s newest national laboratory to maximize its use for improving life on Earth, promoting collaboration among diverse users and advancing STEM education. This unique laboratory environment is available for use by other U.S. government agencies and by academic and private institutions, providing access to the permanent microgravity setting, vantage point in low earth orbit(Abbreviation: LEO) The orbit around the Earth that extends up to an altitude of 2,000 km (1,200 miles) from Earth’s surface. The International Space Station’s orbit is in LEO, at an altitude of approximately 250 miles. and varied environments of space. The ISS National Laboratory Office at NASA’s Johnson Space Center currently facilitates research initiatives on board the station’s National Lab, but management of America’s only in-orbit laboratory is transitioning to the ISS National Lab.
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