Dec 5 2016
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(New page: ''RELEASE 16-114'' '''Spinoff 2017 Shows How NASA Technology Makes a Difference on Earth''' NASA has released its Spinoff 2017 publication, which takes a close look at 50 different compa...)
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RELEASE 16-114 Spinoff 2017 Shows How NASA Technology Makes a Difference on Earth
NASA has released its Spinoff 2017 publication, which takes a close look at 50 different companies that are using NASA technology – innovations developed by NASA, with NASA funding, or under a contract with the agency – in products that we all benefit from.
Whether it’s the self-driving tractor that harvests food, cameras used in car-crash safety tests, or tools making brain surgery safer, NASA technology plays a significant role in our daily lives.
“The stories published in Spinoff represent the end of a technology transfer pipeline that begins when researchers and engineers at NASA develop innovations to meet mission needs,” said Stephen Jurczyk, associate administrator of the agency’s Space Technology Mission Directorate in Washington. “This year’s spinoffs includes products and services at work in every sector of the economy. They are innovations that make people more productive, protect the environment, and much more.”
In Spinoff 2017, learn how:
- NASA’s work at its Jet Propulsion Laboratory on precise GPS measurements enabled John Deere to build the first widely available self-driving tractors, which now work much of the world’s farmland;
- the agency’s longstanding investment at its Glenn Research Center in heat pipes helped Thermacore Inc. adapt the technology to wick away dangerous heat during brain surgery;
- a high-speed, high-resolution camera designed to monitor the Orion spacecraft’s landing parachutes at NASA’s Johnson Space Center now is improving data in automobile crash tests.
Other highlights include: laser imaging technology that discovered snow on Mars and now helps archeologists uncover humanity’s past; Earth-observing satellites that spot forest fires before they spread; and software that might help create supersonic jets we could all fly on.
“NASA’s ambitious mission goals require technology that pushes the envelope of what’s possible,” said Daniel Lockney, NASA’s Technology Transfer Program executive. “And these innovations have many secondary benefits for our lives and planet.”
The publication also includes a section, Spinoffs of Tomorrow, that highlights 20 technologies ripe for commercial adaptation, including a new wing design that could make airplanes and wind turbines more efficient; an easy-to-use device that separates DNA, RNA, and proteins outside a traditional lab environment, in a developing country or in space; and a system that autonomously detects faulty wiring and reroutes around it. All are available for licensing and partnership opportunities through NASA’s Technology Transfer Program.
Spinoff is a part of the agency’s Technology Transfer Program. The program is charged with finding the widest possible applications for NASA technology through partnerships and licensing agreements with industry, ensuring that NASA’s investments in its missions and research find additional applications that benefit the nation and the world.
An iPad version of Spinoff 2017, including shortened versions of the stories with multimedia and interactive features, also is available for download in the Apple iTunes store.
MEDIA ADVISORY M16-140 NASA TV Coverage Set for Japanese Cargo Ship Destined for Space Station
The launch of a Japanese cargo ship to the International Space Station, and its arrival at the orbiting laboratory, will be broadcast Dec. 9 and 13 on NASA Television and the agency’s website.
The Japan Aerospace Exploration Agency (JAXA) is scheduled to launch its H-II Transfer Vehicle (HTV)-6 at 8:26 a.m. EST (10:26 p.m. Japan time) Friday, Dec. 9, from the Tanegashima Space Center in southern Japan. NASA TV coverage of the launch will begin at 7:45 a.m.
Loaded with more than 4.5 tons of supplies, water, spare parts and experiment hardware for the six-person station crew, the unpiloted cargo spacecraft, named “Kounotori” – the Japanese word for white stork – will set sail on a four-day flight to the station. Also aboard the resupply vehicle are six new lithium-ion batteries and adapter plates that will replace the nickel-hydrogen batteries currently used on the station to store electrical energy generated by the station’s solar arrays. These will be installed during a series of spacewalks currently scheduled in January.
On Tuesday, Dec. 13, the HTV-6 will approach the station from below, and slowly inch its way toward the complex. Expedition 50 Commander Shane Kimbrough of NASA and Flight Engineer Thomas Pesquet of ESA (European Space Agency) will operate the station’s Canadarm2 robotic arm from the station’s cupola to reach out and grapple the 12-ton spacecraft and install it on the Earth-facing side of the Harmony module, where it will spend more than five weeks. Flight Engineer Peggy Whitson of NASA will monitor HTV-6 systems during the rendezvous and grapple.
NASA TV coverage of the Dec. 13 rendezvous and grapple will begin at 4:30 a.m. Capture of the spacecraft is scheduled around 6 a.m. Coverage of the final installation to Harmony will resume at 9:15 a.m.
CONTRACT RELEASE C16-032 NASA Awards Contract for Refueling Mission Spacecraft
NASA has awarded the Restore-L Spacecraft Bus and Support Services contract to Space Systems/Loral of Palo Alto, California. Restore-L is a robotic spacecraft equipped with the tools, technologies and techniques needed to service satellites currently in orbit.
The contract has a firm-fixed-price and includes a three-year core period and a two-year indefinite-delivery/indefinite-quantity portion. The total maximum value of the contract is $127 million.
Space Systems/Loral will provide spacecraft bus, critical hardware and services for the development, deployment and operations of the Restore-L mission. They also will provide related services to accomplish mission integration, test, launch and operations.
The Restore-L Project is managed within NASA’s Satellite Servicing Projects Division at the agency’s Goddard Space Flight Center in Greenbelt, Maryland, for NASA’s Space Technology Mission Directorate.
The Satellite Servicing Projects Division at Goddard was established in 2009 to continue NASA’s 40-year legacy of satellite servicing and repair. Restore-L is a free-flying mission projected to launch in 2020 to perform in-orbit satellite servicing on an operational government asset in low-Earth orbit.