05.11.11

Kathy Barnstorff
757-864-9886, 344-8511 (mobile)
kathy.barnstorff@nasa.govRELEASE: 11-037

SHUTTLE ENDEAVOUR'S LAST MISSION TO INCLUDE LANGLEY CONTRIBUTIONS

HAMPTON, Va. -- NASA has set the last launch of the space shuttle 
Endeavour for Monday, May 16, at 8:56 a.m. EDT.

Endeavour's STS-134 mission to the International Space Station, which 
will now last 16 days, will feature a new spacecraft docking 
technology, developed in part by NASA's Langley Research Center. The 
shuttle will also deliver a particle physics detector, known as the 
Alpha Magnetic Spectrometer-2 that will help researchers study the 
formation of the universe. Endeavour also will transport a platform 
that carries spare parts to sustain station operations after the 
shuttles are retired from service. The mission will feature the last 
four spacewalks by a shuttle crew.

News media who are interested in watching the launch with some of the 
employees at NASA Langley can join us Monday morning. Please contact 
Kathy Barnstorff before 4 p.m., Friday, May 13, for credentials.

<div style="width:300px; float:right; background-color:#CCCCCC; 
font-size:14px; margin:8px; padding:8px; border:1px solid #DDDDDD"> 
For additional information about NASA Langley, please go to:
www.nasa.gov/langley </div> The test-run of the state-of-the-art 
docking system, called the Sensor Test for Orion Relative Navigation 
Risk Mitigation or STORRM, will occur near the end of the mission. 
Its goal is to validate new sensor and laser technology that will 
make docking and undocking to the International Space Station (ISS) 
easier and safer for astronauts. The shuttle crew will undock from 
the ISS and then re-rendezvous, using the new technology. Langley 
engineers will be in Houston to monitor the experiment.

STORRM hardware includes a Vision Navigation System (VNS) and a 
high-resolution docking camera. The VNS is an eye-safe remote laser 
sensing system that provides an image of the target -- in this case, 
the ISS -- along with range and bearing data to precise accuracies. 
The docking camera is designed to provide high-resolution color 
images. Both these sensors will provide real-time three-dimensional 
images to the crew with a resolution 16 times higher than the current 
shuttle sensors.

Much like the technology that allows automobiles to parallel-park 
themselves without driver assistance, the VNS and docking camera 
would allow the spacecraft to "park" itself. This technology can also 
aid in hazard avoidance, allowing for safe approach and landing on 
asteroids and other planetary surfaces.

"Engineers from industry and NASA overcame significant schedule and 
technical challenges to make the STORRM project a reality," said 
Frank Novak, STORRM project manager from NASA Langley. "Langley 
designed a radiation tolerant data storage system in six months, 
capable of storing one terabyte of data."

During the mission NASA Langley researchers also participate on damage 
assessment and impact dynamics team. Those teams identify and 
evaluate if there's any risk to the shuttle if the orbiter's wing 
leading edges, nosecone and fragile tiles get hit from debris.

Another group from Langley, the Hypersonic Thermodynamic Infrared 
Measurements or HYTHIRM team, will keep an eye specifically on the 
heat of the shuttle's re-entry into Earth's atmosphere, scheduled for 
2:30 a.m., June 1. They're working to improve computer models and 
designs for future spacecraft thermal protection systems. The team 
has been successful in acquiring calibrated thermal "snapshots" of 
re-entry, ranging from Mach 8.5 to Mach 18, during six previous 
shuttle missions.

The team works with a Navy aircraft that flies under the shuttle so 
the crew can use a special infrared optical system to record 
Endeavour's heat signature during re-entry. The Navy NP-3D Orion 
aircraft and the long-range infrared optical system are called "Cast 
Glance" and are operated by the NAVAIR Weapons Division, Pt. Mugu, 
Calif.

At closest approach, the aircraft will be approximately 25 - 40 miles 
(40 - 64 km) from the shuttle. Because the orbiter is banking on 
descent the plane will not be directly under it. Mission planners say 
the aircraft location and flight maneuvers have been carefully 
calculated to ensure safety to the shuttle and the respective crews.

A team from NASA Langley will be in mission control during re-entry to 
collect the most up-to-date shuttle re-entry information and make 
recommendations to the P-3 flight crew so it can make adjustments to 
the camera settings and aircraft position for the best viewing. The 
data will be recorded and downloaded after the P-3 Orion returns to 
its base of operations.


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