GPS satellites circle the earth twice a day in a very precise orbit and transmit signal information to earth. GPS receivers take this information and use triangulation to calculate the user's exact location. Essentially, the GPS receiver compares the time a signal was transmitted by a satellite with the time it was received. These signals travel at the speed of light. The receiver measures the transit time of each message, and uses the known speed of light to compute the distance to each satellite. These distances, along with the location of the satellites, then determine the location of the receiver through a sophisticated version of trilateration. In most consumer applications, the raw location is converted to a more user-friendly form such as latitude/longitude or location on a map. The time difference tells the GPS receiver how far away the satellite is. Now, with distance measurements from a few more satellites, the receiver can determine the user's position and display it on the unit's electronic map.
There are several components that need to be looked at when choosing a GPS. There is the GPS receiver (or antenna) itself, which plays an important part. Do you need a seperate Bluetooth antenna unit for clear line of sight?. Then there is the portion of the system which uses the received information to estimate where the device is located on an internal map. Is the GPS unit going to be car mounted or hand-held?
Then there are the various capabilities for route planning and recording, which vary from unit to unit. Some include reversing cameras. Finally, the display portion of each solution type can vary considerably, from limited location information to full color three dimensional maps of the immediate surroundings and advised route.
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