NASA Selects Experimental Commercial Suborbital Flight Payloads

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Jan. 22, 2013

David E. Steitz 
Headquarters, Washington 
202-358-1730 
david.steitz@xxxxxxxx 

Rachel Hoover 
Ames Research Center, Moffett Field, Calif. 
650-604-4789 
rachel.hoover@xxxxxxxx 

Leslie Williams 
Dryden Flight Research Center, Edwards, Calif. 
661-276-3893 
leslie.a.williams@xxxxxxxx 


RELEASE: 13-027

NASA SELECTS EXPERIMENTAL COMMERCIAL SUBORBITAL FLIGHT PAYLOADS

WASHINGTON -- NASA's Flight Opportunities Program has selected 13 
cutting-edge space technology payloads for flights on commercial 
reusable launch vehicles, balloons and a commercial parabolic 
aircraft in 2013 and 2014. The flights will allow participants to 
demonstrate their technologies to the edge of space and back, before 
committing them to the harsh and unforgiving conditions of 
spaceflight. 

The vehicles that will carry these payloads will include Las 
Vegas-based Zero-G Corporation's parabolic airplane and high altitude 
balloons from Near Space Corp. in Tillamook, Ore. They also will 
include reusable launch vehicles from Masten Space Systems in Mojave, 
Calif.; UP Aerospace in Highlands Ranch, Colo.; and Virgin Galactic 
in Las Cruces, N.M. 

"These payloads represent more real progress in our goal of fostering 
a viable market for American commercial reusable suborbital platforms 
-- access to near space that provides the innovation needed for 
cutting-edge space technology research and development," said Michael 
Gazarik, director of NASA's Space Technology Program. "American 
leadership in the commercial suborbital flight market will prove to 
benefit technology development across NASA, universities, industries 
and in our new technology economy." 

A wide range of innovative payloads are represented in this selection. 
The Resonant Inductive Near-field Generation System payload from the 
University of Maryland in College Park will use the parabolic flights 
to perform preliminary tests on a technology that seeks to hold a 
cluster of satellites in formation using magnetic fields. 

A payload from Astrobotic Technology Inc. of Pittsburgh will be tested 
on a suborbital reusable launch vehicle that takes off and lands 
vertically. The demonstration will examine how the company's 
automated landing system may enable future unmanned missions to land 
on another planet or the rocky and hazardous terrain of an asteroid. 

Nine of the selected payloads will fly on parabolic aircraft flights, 
which provide brief periods of weightlessness. Four will fly on 
suborbital reusable launch vehicles. Two will be carried on 
high-altitude balloons that fly to 100,000 feet. One will fly on a 
vertical launch and landing suborbital vehicle. One payload will fly 
on both a suborbital launch vehicle and a high-altitude balloon. 

The selected payloads, listed with their principal investigators, are: 


Flight on a parabolic aircraft: 
-- "Structural Dynamics Test of STACER Antenna Deployment in 
Microgravity," Kerri Cahoy of Massachusetts Institute of Technology 
in Cambridge 
-- "UAH ChargerSat-2 Parabolic Flight Testing," Francis Wessling of 
the University of Alabama in Huntsville 
-- "High Eccentric Resistive Overload (HERO) Device Demonstration 
during Parabolic Flight," Aaron Weaver of NASA's Glenn Research 
Center in Cleveland 
-- "Assessing Otolith-Organ Function with Vestibular Evoked Myogenic 
Potentials (VEMPs) in Parabolic Flight," Mark Shelhamer of Johns 
Hopkins University School of Medicine in Baltimore 
-- "On the Performance of a Nanocatalyst-based Direct Ammonia Alkaline 
Fuel Cell (DAAFC) under Microgravity Conditions for Water Reclamation 
and Energy Applications," Carlos Cabrera of the University of Puerto 
Rico in San Juan 
-- "Dynamic and Static Behavior of a Flexible Fuel Hose in Zero-G," 
Allyson Buker of Jackson and Tull in Washington 
-- "In-Flight Lab Analysis Technology Demonstration in Reduced 
Gravity," Emily Nelson of Glenn 
-- "Caging System for Drag-free Satellites," Robert Byer of Stanford 
University in California 
-- "Reduced Gravity Flight Demonstration of the Resonant Inductive 
Near-field Generation System," Raymond Sedwick of the University of 
Maryland in College Park 
Flight on a vertical launch and landing suborbital vehicle: 
-- "Autolanding for Robotic Precursor Missions," Kevin     Peterson of 
Astrobotic Technology Inc. in Pittsburgh 
Flight on a high altitude balloon: 
-- "Deployable Rigid Adjustable Guided Final Landing Approach 
Pinions," Jonathan Powers of Masten Space Systems Inc. in Mojave, 
Calif. 
-- "Guided Parafoil High Altitude Research," Allen Lowry of Airborne 
Systems North America of CA Inc. in Santa Ana, Calif. 
Flights on multiple platforms: 
-- "Flight Testing of a UAT ADS-B Transmitter Prototype for Commercial 
Space Transportation Using Reusable Launch Vehicles," Richard 
Stansbury of Embry-Riddle Aeronautical University in Daytona Beach, 
Fla. 

NASA manages the Flight Opportunities Program manifest, matching 
payloads with flights, and will pay for payload integration and the 
flight costs for the selected payloads. No funds are provided for the 
development of these payloads. 

NASA's Dryden Flight Research Center in Edwards, Calif., manages the 
Flight Opportunities Program for NASA's Space Technology Program in 
Washington. NASA's Ames Research Center in Moffett Field, Calif., 
manages the payload activities for the program. NASA's Space 
Technology Program is innovating, developing, testing and flying 
hardware for use in NASA's future missions. 

For more information on the Flight Opportunities program, visit: 

http://flightopportunities.nasa.gov 

	
-end-



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