![]() ![]() ![]() The spacecraft docked autonomously with the orbital laboratory on March 3. The first-of-its-kind mission was designed to test Crew Dragon’s equipment, including its docking gear, as well as its systems for life support and re-entry, in an overall demonstration of its capabilities.ĭM-1 began March 2, when a SpaceX Falcon 9 rocket lifted off from Kennedy Space Center in Florida. aboard an American-built spacecraft - something it has not been able to do since retiring the Space Shuttle eight years ago. The agency wants to launch its astronauts to the orbital laboratory from the U.S. Last month’s mission, known as Demonstration Mission-1, or DM-1, was seen as a significant step for SpaceX, the private space flight company, and NASA. “This mission for NASA is another illustration of the versatility and value of the AIRS platform in support of a great partner,” he added. “Over the years, our team working on the AIRS technology has responded to each new challenge with innovative solutions that have helped advance the WB-57 program. “When it comes to the issues of space flight, there is no margin for error,” Johns said. Johns, vice president of the Engineering Division at Southern Research. Since the AIRS technology debuted in 2005, it has played an important role in many missions for NASA and other government agencies, said Michael D. Southern Research’s AIRS technology aboard a NASA WB-57 research plane captured the parachutes opening to slow the descent of the SpaceX Crew Dragon at the end of its mission to the International Space Station. “The high-definition video and infrared images captured by the AIRS platform on the WB-57 will help fill in the overall picture of how the spacecraft performed on a mission that could shape the future of the American space program,” said Casey, who is based in Houston, home of NASA’s Johnson Space Center. ![]() In addition, images recorded by the system’s infrared camera will allow NASA to estimate temperatures of various parts of the vehicle, he said. Tony Casey, engineering project leader for Southern Research, said the AIRS cameras filmed Crew Dragon’s descent for 12 minutes, capturing key moments such as when its drogue parachutes opened to slow the craft after reentry. The Airborne Imaging and Reconnaissance System, or AIRS, mounted on a NASA WB-57F research aircraft flying at 18,000 feet, recorded the unmanned spacecraft on its March 8 return after a critical test mission to the International Space Station. Southern Research’s unique high-altitude HD video recording system provided NASA with dramatic close-up images of the SpaceX Crew Dragon spacecraft as it descended through Earth’s atmosphere for a splashdown in the Atlantic Ocean in March. ![]()
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