Space

“GPS is transforming the way nations operate in space -- from guidance systems for the International Space Station’s return vehicle to the control of communication satellites to entirely new forms of Earth remote sensing. When all is said and done, the power and compass of this new tool will surely surpass what we can imagine now.”

Dr. Tom Yunck, Jet Propulsion Laboratory, California, USA

Benefits

Providing high precision positioning with minimum ground control.
Replacing high cost, and high mass, on-board sensors.

Earth Orbit

The Global Positioning System (GPS) is revolutionizing and revitalizing the way nations operate in space, from guidance systems for crewed vehicles to the management, tracking, and control of communication satellite constellations, to monitoring the Earth from space. Benefits of using GPS include:

Jason-1 Ocean Surface Topography Mission (includes a GPS receiver and a laser reflectometer for high precision orbit determination)

Navigation solutions -- providing high precision orbit determination, and minimum ground control crews, with existing space-qualified GPS units.
Attitude solutions -- replacing high cost on-board attitude sensors with low-cost multiple GPS antennae and specialized algorithms.
Timing solutions -- replacing expensive spacecraft atomic clocks with low-cost, precise time GPS receivers.
Constellation control -- providing single point-of-contact to control for the orbit maintenance of large numbers of space vehicles such as telecommunication satellites.
Formation flying -- allowing precision satellite formations with minimal intervention from ground crews.
Virtual platforms -- providing automatic "station-keeping" and relative position services for advanced science tracking maneuvers such as interferometry.
Launch vehicle tracking -- replacing or augmenting tracking radars with higher precision, lower-cost GPS units for range safety and autonomous flight termination.

The Moon, Mars, and Beyond

Space Shuttle lifting off The U.S. vision for space exploration, being implemented by the National Aeronautics and Space Administration (NASA), includes developing innovative technologies, knowledge, and infrastructures for returning to the Moon and preparing the way for future human missions to Mars and beyond. The vision will stimulate new research that will literally become the final frontier in navigation. Drawing on the experience with GPS, one could imagine creating a GPS-like network of satellites around the Moon and Mars. A Lunar or Martian network could provide an integrated communications and navigation infrastructure to support exploration and science missions both in lunar orbit and on the surface of the Moon and Mars.

NASA is also studying the utility of placing GPS-like beacons on satellites destined for the Sun-Earth Lagrangian points. Geodetic reference points could be established at these locations to support the future exploration of the Solar System.

Concept Martian Communications & Navigation Network

The figure on the right depicts a Martian communication and navigation concept of two satellites in areostationary orbit (equivalent of geostationary orbit in Mars).

For additional information about the use of GPS in space, visit any of the following websites: