Global Positioning System (GPS)
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==Distance measurement== | ==Distance measurement== | ||
| + | The distance measurement based on the runtime of a electromagnetic satellite-signal can be derived from | ||
| + | :<math> s = c * t </math> | ||
| + | with | ||
| + | * s=distance | ||
| + | * c=speed of light | ||
| + | * t=runtime of the signal | ||
| + | The speed of light, in which signals move, is | ||
| + | :<math>c=300.000km/sec = 3*109m/sec</math> | ||
==Accuracy of GPS positionig== | ==Accuracy of GPS positionig== | ||
Revision as of 18:31, 14 April 2011
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This section is still under construction! This article was last modified on 04/14/2011. If you have comments please use the Discussion page or contribute to the article! |
- This is an Article about the Global Positioning System (GPS) in general. For an introduction to the Garmin GPS receiver see Garmin GPS.
Contents |
Functional principle
Sattelite navigation systems are used for three-dimensional positioning on the surface of the earth. In contrast to other methods of mensuration or positioning, no fixed points on the earth's surface are used as reference points, but satellites circling in the earth's orbit.
GPS (NAVSTAR-GPS = Navigation System with Satellite Timing and Ranging - Global Positioning System) was the first satellite based navigation system to be established by the pentagon. Main components of this system were 24 satellites (21 satellites plus 3 active backup satellites), encircling the earth on 6 defined tracks in a distance of 20.000 km, allowing positioning on earth's surface in each time and place.
The position of each satellite (so called orbital information) is known at any time and is registered in an earth-bound geocentric coordinate system (WGS84).
A position on earth's surface can be definitely determined by measuring the distances to three satellites simultaneously. For this task GPS receivers are used, which decode the information sent by the satellite. The functional principle is as follows:
The satellites used to define the current position are equipped with atomic clocks, allowing an extremely precise time measurement. The signals sent by the satellite contain encoded information on the exact moment of transmission. A receiver on earth contains a memory with the coordinates of the orbit of each satellite. This allows for the allocation of a received signal to a specific satellite and the calculation of the runtime (and thus, the distance).
Distance measurement
The distance measurement based on the runtime of a electromagnetic satellite-signal can be derived from \[ s = c * t \] with
- s=distance
- c=speed of light
- t=runtime of the signal
The speed of light, in which signals move, is \[c=300.000km/sec = 3*109m/sec\]
