In 2005, NASA launched the Mars intelligence activity satellite to survey the terrestrial planet. At the time, the camera on board was the most important ever flown on a planetary mission. This allowed the satellite to spot hazards that might damage landers and rovers. in addition, the orbiter’s imaging prism spectroscope looked for water options, prospecting for resources and sorting out proof that water once stuffed the barren Martian landscape.
In addition to its science mission, the orbiter acted as a communications link, relaying high-resolution science information from rovers on the Red Planet’s surface. this can be a typical, secondary purpose for Martian science orbiters. Mars international Surveyor and 2001 Mars Odyssey, 2 previous orbiters, conjointly acted as relays.
More recently, the Mars Atmosphere and Volatile Evolution Mission, or MAVEN, completed aerobraking maneuvers to tighten its orbit around Mars, sanctioning it to act as a communications relay for the future Mars 2020 rover, a part of NASA’s Mars Exploration Program, a long effort of robotic exploration of the terrestrial planet. The rover has the potential to answer key questions about the potential forever on Mars. a lot of of that information can flow through whiz.
Closer to Earth, NASA and industrial trade have in depth, sturdy communications infrastructure. As launch services become a lot of accessible, constellations of relay satellites around Earth become a lot of and a lot of common. Terrestrial property is near-instantaneous and -omnipresent.
Read More: www.nasa.gov