Triangulation/Trilateration in GPS

Global Positioning System (GPS) has made a tremendous impact in our life and has become immensely popular in recent times. GPS receivers are omnipresent and the applications of GPS extend beyond technology purposes. At the core of this wonderful technology is a simple mathematical/geometrical concept called trilateration or triangualation. Imagine you are lost one day and you don't even know if you are on the northern or southern hemisphere. All that you have is a GPS device with you to locate yourself.

To start off, you are situated somewhere on the surface of the earth (Now don't tell that the earth is not a perfect sphere). Your GPS device receives position and time (sent) information from GPS satellites and the distance is calculated based on the standard distance-time formula given the fact that radio signals from GPS satellites travel roughly with the speed of light. The key problem here is that you don't know the direction but you only know the distance from a satellite.
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Consider the blue sphere as the earth E. We are trying to locate a point P on the surface of the earth.

When your GPS device calculates the distance x from satellite say S1, you know that you might be located anywhere on the surface of a sphere of radius x with S1 as the centre. But you don't know in which precise angle you are located in the 360 degrees. Now when your GPS device gets hold of another satellite S2 and calculates the distance y from it, you can apply the geometric principle that spheres intersect in a perfect circle to narrow down your position to somewhere on the perimeter of a circle. Now, the point at which this circle intersects with the earth should give your location on earth. Now when your GPS device calculates the distance z from a third satellite S3, the sphere of radius z with S3 as centre will intersect the circle of intersection of the other two spheres at two points. Only one of those two intersection points will actually lie on the surface of the earth and the other point will lie in space. The point on the surface of the earth will give your location on earth.

GPS satellites transmit time information derived from high accuracy atomic clocks but the GPS receivers cannot afford such high precision clocks. There are several factors that might introduce errors in GPS like clock inaccuracies, rounding errors, multipath and atmospheric effects, etc. Since the earth is also not a perfect sphere, GPS receivers generally look to four or more satellites to compute the precise location.

6 comments:

KM said...

An interesting article that really true friend desgin steady.

Vi$it and smile , visit me back please

Ivan Axel said...

well i still wondering if we can use GPS in 3D and in real viewing.. btw this helpfull

Tech Talk said...

Hi great blog with interesting article

Anonymous said...

Nice graphics...

Template Design said...

Great blog post as well,thanks for sharing ...

Varun said...

Ah, I always wonder how GPS work, after reading this. it help me to understand how it actually measure..Thank You :)

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