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COLIN, Tony, 03/19/2016 09:32 PM
PART 4 : Position Estimation.¶
- Table of contents
- PART 4 : Position Estimation.
Once the navigation bits from at least 4 satellites have been retrieved from the acquisition/tracking part, it is possible to estimate the desired position of the receiver.
1 - Ephemeris.¶
GPS uses a particular algorithm in order to characterise satellite position. In comparison with GLONASS, this method requires more parameters, but less complexity.
a - GPS satellite ephemeris data.¶
b - GPS satellite position calculation algorithm.¶
These tables are extracted from GPS Interface Control Document [2]
2 - Navigation computation.¶
a - Reminder about the range impairments.¶
The following figure gives the impairments affecting the range in case of the GPS system as well as the correction process :
Figure 4.1 : Pseudo-range measurement extracted from [3]
b - Demonstration of the Pseudo-ranges with Least Square method.¶
Starting from the fact that can determine most of the elements within the pseudo-range measurement PR_sat(i) from the information provided by each satellite, we have the equation :
Equation 1
or put in another way,
Equation 2
Indeed 4 measurements are needed, providing 4 equations with 4 unknows which are the receiver coordinates and the clock bias of the receiver. As the equation is highly non-linear, it is important to proceed to a linearization such as the Taylor expansion :
Equation 3
Hence,
Equation 4
In practise, for a receiver located e.g. in France PR can be described by Paris location as initialization for the algorithm.
In vectorial form the equation becomes :
Equation 5
which can be expressed as :
Equation 6
with the Least Square solution :
Equation 7
Thus, it is possible to retrieve the receiver position.
Note that all unknowns are depicted in red color.
References :
[1] K. Borre, D. M. Akos, N. Bertelsen, P. Rinder, S. H. Jensen, A software-defined GPS and GALILEO receiver
[2] GPS Interface Control Document under http://www.gps.gov/technical/icwg/IS-GPS-200H.pdf
[3] Position Estimation Workshop, March 2016