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HomeTech/ScienceNASA Pinning Down Where 'Here' is Better Than Ever

NASA Pinning Down Where ‘Here’ is Better Than Ever

Written by Priscilla Vega
NASA’s Jet Propulsion Laboratory

NASA - National Aeronautics and Space AdministrationPasadena, CA – Before our Global Positioning System (GPS) navigation devices can tell us where we are, the satellites that make up the GPS need to know exactly where they are.

For that, they rely on a network of sites that serve as “you are here” signs planted throughout the world. The catch is, the sites don’t sit still because they’re on a planet that isn’t at rest, yet modern measurements require more and more accuracy in pinpointing where “here” is.

NASA's Jan McGarry (left) and Stephen Merkowitz stand next to the Next-Generation Satellite Laser Ranging (NGSLR) system, one of the ground stations that makes up the quadrangle of instruments known as the Space Geodesy project, as it peeks through the station's open dome. The NGSLR laser ranges to Earth-orbiting satellites and to NASA's Lunar Reconnaissance Orbiter. McGarry leads the development of the NGSLR and Merkowitz is the project manager for the Space Geodesy project. (Image Credit: NASA/GSFC/Elizabeth Zubritsky)
NASA's Jan McGarry (left) and Stephen Merkowitz stand next to the Next-Generation Satellite Laser Ranging (NGSLR) system, one of the ground stations that makes up the quadrangle of instruments known as the Space Geodesy project, as it peeks through the station's open dome. The NGSLR laser ranges to Earth-orbiting satellites and to NASA's Lunar Reconnaissance Orbiter. McGarry leads the development of the NGSLR and Merkowitz is the project manager for the Space Geodesy project. (Image Credit: NASA/GSFC/Elizabeth Zubritsky)

To meet this need, NASA is helping to lead an international effort to upgrade the four systems that supply this crucial location information. NASA’s Jet Propulsion Laboratory, Pasadena, Calif., in partnership with NASA’s Goddard Space Flight Center in Greenbelt, MD, where the next generation of laser ranging and radio interferometry systems is being developed and built, is bringing all four systems together in a state-of-the-art ground station.

This demonstration station and merger of technique processing, known as the Space Geodesy Project, will serve as an example of what is required to measure Earth’s properties to keep up with the ever-changing, yet subtle, movements in land as it rises and sinks along with shifts in the balances of the atmosphere and ocean.

All of these movements tweak Earth’s shape, its orientation in space and its center of mass — the point deep inside the planet that everything rotates around. The changes show up in Earth’s gravity field and literally slow down or speed up the planet’s rotation.

“NASA and its sister agencies around the world are making major investments in new stations or upgrading existing stations to provide a network that will benefit the global community for years to come,” says John LaBrecque, Earth Surface and Interior Program Officer at NASA Headquarters.

GPS won’t be the only beneficiary of the improvements. All observations of Earth from space — whether it’s to measure how far earthquakes shift the land, map the world’s ice sheets, watch the global mean sea level creep up or monitor the devastating reach of droughts and floods — depend on the International Terrestrial Reference Frame, which is determined by data from this network of designated sites.

For more information, visit: http://www.nasa.gov/topics/technology/features/here-pin-down.html .

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