Space Station Communications Test Bed Checks Out; Experiments Begin

[Date Prev] [Date Next] [Thread Prev] [Thread Next] [Date Index] [Thread Index]

 



April 23, 2013

Rachel Kraft 
Headquarters, Washington                        
202-358-1100 
rachel.h.kraft@xxxxxxxx 

Katherine K. Martin 
Glenn Research Center, Cleveland 
216-433-2406 
katherine.k.martin@xxxxxxxx 

MEDIA ADVISORY: 13-116

SPACE STATION COMMUNICATIONS TEST BED CHECKS OUT; EXPERIMENTS BEGIN

WASHINGTON -- NASA's Space Communications and Navigation (SCaN) test 
bed has begun its experiments after completing its checkout on the 
International Space Station. 

The SCaN test bed is an advanced, integrated communications laboratory 
facility that uses a new generation of software-defined radio (SDR) 
technology to allow researchers to develop, test and demonstrate 
advanced communications, networking and navigation technologies in 
space. This radio communication technology is based on a new standard 
that enables radio characteristics and functionality to be changed 
simply by altering the software. It can be transferred to any radio 
built to the standard. The cost savings and efficiency of this new 
technology will improve NASA's data communications in the future. 

"The space station serves as a dynamic test bed for the technologies 
needed for future human and robotic exploration," said International 
Space Station Program Manager Michael Suffredini. "SCaN is an example 
of the technologies that are being matured in low-Earth orbit and 
used to increase science return of many different types of 
spacecraft." 

Checkout activities completed in February established the status and 
health of the payload, including the antenna systems and software on 
each of three SDRs. The test bed will help technology developers and 
mission planners understand how they will be used in future missions. 


"With the development and deployment of this test bed, NASA has 
enabled significant future advancements by gaining knowledge and 
understanding of SDR development," said John Rush, technology and 
standards director for SCaN at NASA Headquarters in Washington. 
"That has created expertise across the agency that will define and 
develop the next generation of SDRs for future missions." 

Initial experiments under way include advancing in S-band and Ka-band 
SDR technology and enhancing the capabilities of the existing 
communications paths, especially in the Ka-band. Researchers expect 
the test bed to operate aboard the space station for as long as six 
years. 

"The SCaN Test bed represents a significant advancement in SDRs and 
its applications for NASA," said David Irimies, project manager for 
the SCaN test bed at NASA's Glenn Research Center in Cleveland. 
"Investigating these SDR technologies in the dynamic space 
environment increases their technology readiness level and maturity, 
which in turn can be used for future missions as risk reduction." 

An experiment with NASA's latest Tracking and Data Relay Satellite 
(TDRS)-K will be the first in-orbit test and demonstration of a TDRS 
spacecraft acquiring and successfully auto-tracking a Ka-band user in 
low-Earth orbit. 

This reconfigurable in-orbit laboratory provides broad participation 
to NASA, industry, academia and other government agencies. These 
experiments will contribute data to the Space Telecommunications 
Radio Standard Compliant repository and will enable future hardware 
platforms to use common, reusable software modules to reduce 
development time and costs. 

NASA continues to solicit proposals to participate in the development, 
integration and in-orbit execution of research and technology 
experiments and demonstrations using the test bed. The first users 
outside NASA are expected to demonstrate experiments on the SCaN test 
bed by 2014. 

Glenn Research Center leads the SCaN test bed multi-center team, which 
includes the agency's Goddard Space Flight Center in Greenbelt, Md.; 
Jet Propulsion Laboratory in Pasadena, Calif.; and Johnson Space 
Center in Houston. General Dynamics of Scottsdale, Ariz., and Harris 
Corp. of Melbourne, Fla., developed SDRs under cooperative agreements 
with NASA. The SCaN Program Office in the Human Exploration and 
Operations Mission Directorate at NASA Headquarters in Washington 
manages, oversees and funds the test bed. 

For more information about the SCaN test bed, including opportunities 
for academia, government agencies and industry to participate, visit: 


http://go.nasa.gov/QLp37U 

For more information about SCaN, visit: 

http://www.nasa.gov/SCaN 

For more information about the International Space Station, visit: 

http://www.nasa.gov/station 

	
-end-



To subscribe to the list, send a message to: 
hqnews-subscribe@xxxxxxxxxxxxxxxxxxxxxx
To remove your address from the list, send a message to:
hqnews-unsubscribe@xxxxxxxxxxxxxxxxxxxxxx



[Index of Archives]     [JPL News]     [Cassini News From Saturn]     [NASA Marshall Space Flight Center News]     [NASA Science News]     [James Web Space Telescope News]     [JPL Home]     [NASA KSC]     [NTSB]     [Deep Creek Hot Springs]     [Yosemite Discussion]     [NSF]     [Telescopes]

  Powered by Linux