![]() ![]() Innovative mathematical algorithms will allow flight in the thin atmosphere, keep track of the helicopter’s movements, and ensure it remains on the planned flight path.The helicopter is designed to fly, land, communicate, manage its energy, and keep warm autonomously.So engineers will learn to operate the aerial vehicle from many millions of miles away. Like the rover, the helicopter is too far from Earth to be operated with a joystick.In addition to having to be small and lightweight, the helicopter’s components had to be stress-tested to be sure they could survive the cold temperatures and radiation in deep space and on Mars.Īutonomous operations of an aerial system at another planet or moon.Its onboard computers, batteries, sensors, and heaters all fit within a fuselage that is about the size of a tissue box.To fit within the payload space on the Perseverance rover’s belly while also maintaining the capability to fly in Mars’ thin atmosphere, Ingenuity was designed to be as light and compact as possible (about 4 pounds, or 1.8 kilograms, on Earth).Use of miniaturized flying technology in space. The helicopter experiment will also inform engineers about: Engineers will fly the helicopter for no more than about 90 seconds on each flight.The helicopter will fly at altitudes of 10-15 feet (3-5 meters) in altitude and travel as far as 160 feet (50 meters) downrange and back to the starting area.The helicopter will start each flight from a 33-by-33-foot (10-by-10-meter) airfield and end back in this airfield.If data suggests the mission did not meet expectations, the team may elect to reproduce the previous flight profile. ![]() Each successful flight will allow the team to consider expanding the test envelope for the next flight.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |