Sep 7 2012

From The Space Library

Jump to: navigation, search

RELEASE: 12-310 NASA'S GLOBAL HAWK MISSION BEGINS WITH FLIGHT TO HURRICANE LESLIE

WASHINGTON -- NASA has begun its latest hurricane science field campaign by flying an unmanned Global Hawk aircraft over Hurricane Leslie in the Atlantic Ocean during a day-long flight from California to Virginia. With the Hurricane and Severe Storm Sentinel (HS3) mission, NASA for the first time will be flying Global Hawks from the U.S. East Coast. The Global Hawk took off from NASA's Dryden Flight Research Center at Edwards Air Force Base, Calif., Thursday and landed at the agency's Wallops Flight Facility on Wallops Island, Va., today at 11:37 a.m. EDT after spending 10 hours collecting data on Hurricane Leslie. The month-long HS3 mission will help researchers and forecasters uncover information about how hurricanes and tropical storms form and intensify. NASA will fly two Global Hawks from Wallops during the HS3 mission. The planes, which can stay in the air for as long as 28 hours and fly over hurricanes at altitudes greater than 60,000 feet, will be operated by pilots in ground control stations at Wallops and Dryden Flight Research Center at Edwards Air Force Base, Calif. The mission targets the processes that underlie hurricane formation and intensity change. The aircraft help scientists decipher the relative roles of the large-scale environment and internal storm processes that shape these systems. Studying hurricanes is a challenge for a field campaign like HS3 because of the small sample of storms available for study and the great variety of scenarios under which they form and evolve. HS3 flights will continue into early October of this year and be repeated from Wallops during the 2013 and 2014 hurricane seasons. The first Global Hawk arrived Sept. 7 at Wallops carrying a payload of three instruments that will sample the environment around hurricanes. A second Global Hawk, scheduled to arrive in two weeks, will look inside hurricanes and developing storms with a different set of instruments. The pair will measure winds, temperature, water vapor, precipitation and aerosols from the surface to the lower stratosphere. "The primary objective of the environmental Global Hawk is to describe the interaction of tropical disturbances and cyclones with the hot, dry and dusty air that moves westward off the Saharan desert and appears to affect the ability of storms to form and intensify," said Scott Braun, HS3 mission principal investigator and research meteorologist at NASA1s Goddard Space Flight Center in Greenbelt, Md. This Global Hawk will carry a laser system called the Cloud Physics Lidar (CPL), the Scanning High-resolution Interferometer Sounder (S-HIS), and the Advanced Vertical Atmospheric Profiling System (AVAPS). The CPL will measure cloud structure and aerosols such as dust, sea salt and smoke particles. The S-HIS can remotely sense the temperature and water vapor vertical profile along with the sea surface temperature and cloud properties. The AVAPS dropsonde system will eject small sensors tied to parachutes that drift down through the storm, measuring winds, temperature and humidity. "Instruments on the 'over-storm' Global Hawk will examine the role of deep thunderstorm systems in hurricane intensity change, particularly to detect changes in low-level wind fields in the vicinity of these thunderstorms," said Braun. These instruments will measure eyewall and rainband winds and precipitation using a Doppler radar and other microwave sensors called the High-altitude Imaging Wind and Rain Airborne Profiler (HIWRAP), High-Altitude MMIC Sounding Radiometer (HAMSR) and Hurricane Imaging Radiometer (HIRAD). HIWRAP measures cloud structure and winds, providing a three-dimensional view of these conditions. HAMSR uses microwave wavelengths to measure temperature, water vapor, and precipitation from the top of the storm to the surface. HIRAD measures surface wind speeds and rain rates. The HS3 mission is supported by several NASA centers including Wallops; Goddard; Dryden; Ames Research Center, Moffett Field, Calif.; Marshall Space Flight Center, Huntsville, Ala.; and the Jet Propulsion Laboratory, Pasadena, Calif. HS3 also has collaborations with partners from government agencies and academia. HS3 is an Earth Venture mission funded by NASA's Science Mission Directorate in Washington. Earth Venture missions are managed by NASA's Earth System Science Pathfinder Program at the agency's Langley Research Center in Hampton, Va. The HS3 mission is managed by the Earth Science Project Office at NASA's Ames Research Center.

RELEASE: 12-313 NASA MARS EXPLORATION ROVER TEAM TO BE HONORED

PASADENA, Calif. -- The mission team for NASA's long-lived Mars Exploration Rovers Spirit and Opportunity will be awarded the Haley Space Flight Award. The team will receive the award Sept. 12 during the American Institute of Aeronautics and Astronautics (AIAA) Space 2012 Conference and Exposition in Pasadena, Calif. The award is presented for outstanding contributions by an astronaut or flight test personnel to the advancement of the art, science or technology of astronautics. Past recipients include Alan Shepard, John Glenn, Thomas Stafford, Robert Crippen, Kathryn Sullivan and the crew of space shuttle mission STS-125, which flew in 2009 on the last shuttle mission to NASA's Hubble Space Telescope. The award citation praises this project's "new techniques in extraterrestrial robotic system operations to explore another world and extend mission lifetime." Mars Exploration Rover Project Manager John Callas of NASA's Jet Propulsion Laboratory (JPL) in Pasadena, will accept the award for the team. "On behalf of the many hundreds of scientists and engineers who designed, built and operate these rovers, it is a great honor to accept this most prestigious award," Callas said. "It is especially gratifying that this comes right as Opportunity is conducting one of the most significant campaigns in the eight-and-a-half years since landing. We still are going strong, with perhaps the most exciting exploration still ahead." In its eighth year operating on Mars, Opportunity is surveying a crater-rim outcrop of layered rock in search of clay minerals that could provide new information about a formerly wet environment. Spirit worked for more than six years -- until 2010 -- 24 times longer than its original three-month prime mission. In just the past two months, Opportunity has driven about a third of a mile (more than 525 meters), extending its total overland travel distance to 21.76 miles (35 kilometers). Recent drives along the inner edge of the Cape York segment of the western rim of Endeavour Crater have brought the rover close to a layered outcrop in an area where clay minerals have been detected from orbit. These minerals could offer evidence of ancient, wet conditions with less acidity than the ancient, wet environments recorded at sites Opportunity visited during its first seven years on Mars. Opportunity's position overlooking 14-mile-wide (22-kilometer-wide) Endeavour Crater is about 5,200 miles (8,400 kilometers) from where Curiosity, NASA's next-generation Mars rover, landed inside Gale Crater a month ago. JPL manages the Mars Exploration Rover Project for NASA's Science Mission Directorate in Washington.

MEDIA ADVISORY: M12-173 SPACE SHUTTLE ENDEAVOUR TO MAKE HISTORIC FINAL FERRY FLIGHT

WASHINGTON -- Space shuttle Endeavour, mounted atop NASA's modified 747 Shuttle Carrier Aircraft (SCA), will make the final ferry flight of the Space Shuttle Program era when it departs Monday, Sept. 17, from NASA's Kennedy Space Center in Florida headed to Los Angeles International Airport (LAX). On Oct. 11, 2011, NASA transferred title and ownership of Endeavour to the California Science Center in Los Angeles. Under the terms of a Space Act Agreement with the science center, NASA will safely transport Endeavour to LAX for a planned arrival on Thursday, Sept. 20. In cooperation with the Federal Aviation Administration, the SCA is scheduled to conduct low-level flyovers at about 1,500 feet above locations along the planned flight path. The exact timing and path of the ferry flight will depend on weather conditions and operational constraints. Some planned flyovers or stopovers could be delayed or cancelled. If the ferry flight must be postponed for any reason, an additional advisory will be issued. At sunrise on Sept. 17, the SCA and Endeavour will depart Kennedy's Shuttle Landing Facility and perform a flyover of various areas of the Space Coast, including Kennedy, the Kennedy Space Center Visitor Complex, Cape Canaveral Air Force Station and Patrick Air Force Base. The aircraft will fly west and conduct low flyovers of NASA's Stennis Space Center in Mississippi and the agency's Michoud Assembly Facility in New Orleans. As it arrives over the Texas Gulf Coast area, the SCA will perform low flyovers above various areas of Houston, Clear Lake and Galveston before landing at Ellington Field near NASA's Johnson Space Center. Weather permitting, the SCA and Endeavour will stay at Ellington the remainder of Sept. 17 and all day Sept. 18. At sunrise on Wednesday, Sept. 19, the aircraft will depart Houston, make a refueling stop at Biggs Army Airfield in El Paso, Texas, and conduct low-level flyovers of White Sands Test Facility near Las Cruces, N.M., and NASA's Dryden Flight Research Center at Edwards Air Force Base in California, before landing around mid-day at Dryden. On the morning of Sept. 20, the SCA and Endeavour will take off from Dryden and perform a low-level flyover of northern California, passing near NASA's Ames Research Center at Moffett Field, Calif., and various landmarks in multiple cities, including San Francisco and Sacramento. The aircraft also will conduct a flyover of many Los Angeles sites before landing about 11 a.m. PDT at LAX. Social media users are encouraged to share their Endeavour sightings using the hashtags #spottheshuttle and #OV105, Endeavour's orbiter vehicle designation. After arrival at LAX, Endeavour will be removed from the SCA and spend a few weeks at a United Airlines hangar undergoing preparations for transport and display. Endeavour then will travel through Inglewood and Los Angeles city streets on a 12-mile journey from the airport to the science center, arriving in the evening on Oct. 13. Beginning Oct. 30, the shuttle will be on display in the science center's Samuel Oschin Space Shuttle Endeavour Display Pavilion, embarking on its new mission to commemorate past achievements in space and educate and inspire future generations of explorers. Endeavour completed 25 missions, spent 299 days in orbit, and orbited Earth 4,671 times while traveling 122,883,151 miles.

MEDIA ADVISORY: M12-176 NASA TV AIRS LIVE KICKOFF OF 2012 ZERO ROBOTICS COMPETITION

WASHINGTON -- NASA Television will broadcast live the virtual kickoff ceremony of the 2012 Zero Robotics High School Tournament beginning at 1 p.m. EDT, Saturday, Sept. 8. Zero Robotics challenges teams of high school students to write their own algorithms to fly the Synchronized Position Hold, Engage, Reorient, Experimental Satellites, or SPHERES. The bowling ball-sized spherical satellites are used to test telerobotics and maneuvers for spacecraft performing autonomous flight, including rendezvous and docking. Three of these satellites fly aboard the International Space Station. Each is self-contained with power, propulsion, computing and navigation equipment. The kickoff will include welcoming talks from each of the tournament's sponsors, including NASA Administrator Charles Bolden. Alvar Saenz-Otero, associate director of the Space Systems Laboratory at the Massachusetts Institute of Technology (MIT), will announce details of this year's specific challenge that students will work to overcome in their software development. This year's Zero Robotics tournament is sponsored by NASA and the Defense Advanced Research Projects Agency (DARPA). The Space Systems Laboratory at MIT, TopCoder and Aurora Flight Sciences will facilitate the contest. The teams must address challenges of satellite docking, assembly and flight formation. This educational program builds critical engineering skills for students, such as problem solving, design thought process, operations training, teamwork and presentation skills. Teams that reach the finals will have their software programs installed on the SPHERES microsatellites aboard the space station. NASA astronauts will execute the student data commands in series of competitive heats to test the accuracy of each team's software programming. Teams will continue to be eliminated until a final champion is determined. The final competition will be held in January 2013 at MIT and aboard the station, 250 miles above the Earth. There is no cost to participate in the Zero Robotics program, and registration for the 2012 Zero Robotics High School Tournament is open until Sept. 28. MIT's Space Systems Laboratory developed the SPHERES flight hardware to provide DARPA, NASA and other researchers with a long-term test bed for validating technologies critical to the operation of future satellites, docking missions and satellite autonomous maneuvers. Numerous organizations, including other government agencies and graduate student research groups have used SPHERES since the program began in 2006. The satellites provide opportunities to test a wide range of hardware and software at an affordable cost.