New Space and Tech

NASA Announces Early Stage Innovations Space Technology Research Grants

By Keith Cowing
Press Release
November 24, 2015
Filed under ,
NASA Announces Early Stage Innovations Space Technology Research Grants
SPHERES in Space

NASA has selected 15 university-led proposals for the study of innovative, early stage technologies that address high priority needs of America’s space program.
The Early Stage Innovations awards from NASA’s Space Technology Research Grants Program are worth as much as $500,000 each. Universities have two to three years to work on their proposed research and development projects.

“The agency’s space technology research areas lend themselves to the innovative approaches U.S. universities can offer for solving tough science and exploration challenges,” said Steve Jurczyk, associate administrator for NASA’s Space Technology Mission Directorate in Washington. “NASA’s Early Stage Innovations grants align with NASA’s Space Technology Roadmaps and the priorities identified by the National Research Council, helping enable NASA’s exploration goals including robotic missions to Mars and the outer planets, and ultimately human exploration of Mars.”

The proposals selected under the Early Stage Innovations 2015 solicitation address unique, disruptive or transformational technologies, including: payload technologies for assistive free-flyers; robotic mobility technologies for the surfaces of icy moons; integrated photonics for space optical communication; computationally guided structural nanomaterials design; and atmospheric entry modeling development using flight data from the Orion’s first flight test in space last December called Exploration Flight Test 1 (EFT-1).

The 15 universities selected for Early Stage Innovation (ESI) grants and the titles of their proposals are:

– Autonomous Navigation for Exploration on Icy Moons — Carnegie Mellon University, Pittsburgh, Pennsylvania

– Ultra-Low Power Complementary Metal-Oxide Semiconductor-Compatible Integrated Photonic Platform for Terabit-Scale Communications — Columbia University, New York

– Versatile Manipulation for Assistive Free-Flyers — Columbia University, New York

– A Novel Electrostatic/Microstructured Adhesive with Dust Mitigation Capabilities — Illinois Institute of Technology, Chicago

– Compact Robust Integrated Pulse Position Modulation Laser Transceiver Chip Set with High Sensitivity, Efficiency and Re-Configurability — Northwestern University, Evanston, Illinois

– Integrated Tapered Active Modulators for High Efficiency Gbps Pulse Position Modulation Laser Transmitter Photonic Integrated Circuits — Rose-Hulman Institute of Technology, Terre Haute, Indiana

– Assistive Free-Flyers with Gecko-Inspired Adhesive Appendages for Automated Logistics in Space — Stanford University, California

– Integrated Photonics for Adaptive Discrete Multi-Carrier Space-based Optical Communication and Ranging — University of California, San Diego

– PICULS: Photonic Integrated Circuits for Ultra-Low Size, Weight and Power — University of California, Santa Barbara

– Investigating the Thermochemical Response of Avcoat Thermal Protection Systems from First Principles for Comparison with EFT-1 Data — University of Illinois, Urbana-Champaign

– Material Response Reconstruction of Ablative Thermal Protection Systems Using Accurate Boundary Layer Modeling — University of Kentucky, Lexington

– Design, Test and Control of a Magnetorheological Universal Gripper for Use On-Orbit University of Maryland, College Park

– Modular Cryogenic Hydraulics for Legged Mobility — University of Maryland, College Park

– Mesoscopic Distinct Element Method-Enabled Multiscale C Computational Design of Carbon Nanotube-based Composite Materials — University of Minnesota, St. Paul

– Computational Design of Carbon Nanotube Network Materials and Polymer Matrix Nanocomposites — University of Virginia, Charlottesville

The goal of the Space Technology Research Grants Program is to accelerate the development of low-technology readiness level space technologies to enable future systems capabilities and missions for NASA, other government agencies and the commercial space sector. The program is funded by NASA’s Space Technology Mission Directorate, which is responsible for developing the cross-cutting, pioneering, new technologies and capabilities needed by the agency to achieve its current and future missions.

For more information about NASA’s Space Technology Research Grants Program, visit:

For more information about the Space Technology Mission Directorate, visit:

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