LUXEMBOURG (Luxembourg Government PR – To promote Luxembourg as a European hub for the exploration and commercial use of space resources, the Ministry of the Economy conducted from April 9th to April 13th an economic mission headed by Luxembourg’s Crown Prince to the U.S. West Coast. The mission aimed to identify and develop new business opportunities and to promote the governmental SpaceResources.lu initiative that offers an attractive overall framework for space resource utilization related activities, including but not limited to the legal regime to provide private companies and investors with a secure legal environment as of the ownership of resources gathered in space.
EDWARDS, Calif. (NASA PR) — NASA has selected five space technologies to test on low-gravity-simulating aircraft, high-altitude balloons or suborbital rockets. The opportunity to fly on these vehicles helps advance technologies closer to practical use by taking them from a laboratory environment to the real world.
MOFFETT FIELD, Calif. (NASA PR) — NASA’s “Exo-Brake” will demonstrate a critical technology leading to the potential return of science payloads to Earth from the International Space Station through the deployment of small spacecraft in early 2017.
WASHINGTON (NASA PR) — NASA announces the addition of its newest virtual institute to advance the field of small spacecraft systems. The Small Spacecraft Systems Virtual Institute (S3VI), hosted at NASA’s Ames Research Center in Moffett Field, California, will leverage the growing small spacecraft community, promote innovation, identify emerging technology opportunities, and provide an efficient channel for communication about small spacecraft systems with industry, academia, and other government agencies.
Today, astronauts Scott and Mark Kelly are visiting the White House to talk to the President about developing innovative new space technologies. One critical area for technology development is making satellites more affordable, adaptable, and adept at providing the sorts of real-time information that will help advance knowledge out in space and on Earth.
WASHINGTON, Sept. 1, 2016 (NASA PR) — NASA has selected 21 research and technology proposals from American small businesses and research institutions that will enable NASA’s future missions into the solar system and beyond while benefiting America’s technology-driven economy here on Earth.
The Phase II selectees of NASA’s Small Business Technology Transfer (STTR) program are permitted to enter negotiations for possible contract awards worth a combined total of approximately $15.8 million. The program selected 21 innovative technology and projects from 41 U.S. firms and research institutions in 20 different states.
NASA officials have been providing updates this week on agency programs and missions during the 2016 Small Satellite Conference and the CubeSat Workshop that preceded it. I have pulled together summaries of their presentations drawn from Twitter. Information has come from the following Tweeters:
WASHINGTON (NASA PR) — NASA’s Flight Opportunities program has selected 13 space technology payloads to flight test on parabolic aircraft, high-altitude balloons or suborbital launch vehicles to demonstrate new technologies. The selections were made through the agency’s Space Technology Mission Directorate (STMD) in Washington.
MOFFETT FIELD, Calif. (NASA PR) — After a five-month stay aboard the International Space Station, NASA’s two Nodes satellites were deployed on May 16 from the NanoRacks platform and into low-Earth orbit to begin their much anticipated technology demonstration. These tiny satellites have dimensions of only four by four by six inches. The ground controllers for the Nodes mission received confirmation that both satellites are transmitting and are in good health when they passed over the tracking station for the first time, soon after deployment. The first transmission of science data is expected by May 18.
ARLINGTON, Va. (NASA PR) — In 2012, the students from St. Thomas More Cathedral School in Arlington, Virginia lined up in the shape of a space shuttle in the school parking lot and witnessed the flyover of the Space Shuttle Discovery as it was being retired to the Smithsonian Air and Space Museum. This awe-inspiring vision was an inspiration to the entire school and a catalyst for them to literally reach for the stars. Thus beginning their quest to build a small satellite, called a CubeSat, that would engage students around the world in Earth observations.
Over the next three years, all 400 pre-kindergarten through eight grade students participated in the design, construction and testing of their small satellite. Through this hands-on, inquiry based learning activity the students conducted real world engineering and will operate the St. Thomas More (STM)Sat-1, the first CubeSat built by elementary school students to be deployed in space.
by Sandy Dueck and Gianine Figliozzi Space Biosciences Division NASA’s Ames Research Center
Biologists around the world routinely perform gene expression analysis to better understand living systems. Gene expression analysis examines the types and amounts of molecules produced by genes in living cells, telling us which genes are active and which are inactive at a given point in time. This reveals valuable information about the highly dynamic internal states of cells in living systems. NASA’s WetLab-2 hardware system is bringing to the International Space Station the technology to measure gene expression of biological specimens in space, and to transmit the results to researchers on Earth at the speed of light.
NASA’s Innovative Advanced Concepts (NIAC) program recently selected 13 proposals for Phase I awards. Below is the description of a Venus probe submitted by Lynn Rothschild of NASA Ames Research Center.
Space missions rely utterly on metallic components, from the spacecraft to electronics. Yet, metals add mass, and electronics have the additional problem of a limited lifespan. Thus, current mission architectures must compensate for replacement. In space, spent electronics are discarded; on earth, there is some recycling but current processes are toxic and environmentally hazardous. Imagine instead an end-to-end recycling of spent electronics at low mass, low cost, room temperature, and in a non-toxic manner.
MOFFETT FIELD, Calif. (NASA PR) — NASA is once again extending an opportunity to teams at colleges and universities with campuses in the U.S. to propose small spacecraft technology projects to be conducted in collaboration with NASA researchers. The Smallsat Technology Partnerships solicitation is being issued by the Small Spacecraft Technology Program, as an appendix to the Space Technology Mission Directorate’s (STMD) NASA Research Announcement (NRA) for 2016.