Satellite navigation has been around for the last few decades courtesy of the American military controlled GPS system (Global Positioning System). The GPS network is currently the World’s only GNSS (global navigation satellite system, although Europe, Russia and China are developing their own.
GNSS systems like GPS are based on the same principle. A constellation of satellites orbiting the Earth each have onboard an atomic clock. These clocks are accurate to within a few microseconds and it is this time-telling accuracy that allows satellite navigation possible.
The GPS satellite continually transmits its location along with the time told by its atomic clock. It is this information that is received by a satellite navigation unit that works out how long the message took to arrive from the satellite and therefore the distance away from it. By using four or more satellites a GPS receiver can triangulate its exact position.
Atomic clocks have to be used onboard the satellites as even tiny inaccuracies in time could cause huge errors in navigation. The signals from the satellites travel at the speed of light which can manage 300,000 km every second so even a millisecond out would make the satellite navigation inaccurate by hundreds of kilometres.
Because of its accuracy, this timing signal broadcast from the onboard atomic clocks can be utilised as a source of UTC time by a GPS time server. A GPS antenna connected to a dedicated time server can synchronise a computer network to within a few milliseconds of UTC time.
