PART41 » History » Version 10
COLIN, Tony, 03/19/2016 07:00 PM
| 1 | 3 | COLIN, Tony | h1. PART 4 : Position Estimation. |
|---|---|---|---|
| 2 | 2 | COLIN, Tony | |
| 3 | 2 | COLIN, Tony | {{toc}} |
| 4 | 2 | COLIN, Tony | |
| 5 | 2 | COLIN, Tony | p(. ....................... |
| 6 | 2 | COLIN, Tony | |
| 7 | 2 | COLIN, Tony | --- |
| 8 | 2 | COLIN, Tony | |
| 9 | 7 | COLIN, Tony | h2. 1 - Ephemeris. |
| 10 | 2 | COLIN, Tony | |
| 11 | 9 | COLIN, Tony | h3. Parameters. |
| 12 | 9 | COLIN, Tony | |
| 13 | 9 | COLIN, Tony | p=. !Eph12min.png! |
| 14 | 9 | COLIN, Tony | |
| 15 | 10 | COLIN, Tony | h3. GPS satellite position calculation algorithm. |
| 16 | 9 | COLIN, Tony | |
| 17 | 9 | COLIN, Tony | p=. !Alg12min.png! |
| 18 | 1 | COLIN, Tony | |
| 19 | 7 | COLIN, Tony | --- |
| 20 | 1 | COLIN, Tony | |
| 21 | 7 | COLIN, Tony | h2. 2 - Navigation computation. |
| 22 | 7 | COLIN, Tony | |
| 23 | 7 | COLIN, Tony | h3. a - Reminder about the impairments. |
| 24 | 7 | COLIN, Tony | |
| 25 | 4 | COLIN, Tony | The following figure gives the impairments affecting the range in case of the GPS system as well as the correction process : |
| 26 | 4 | COLIN, Tony | |
| 27 | 4 | COLIN, Tony | p=. !003.PNG! |
| 28 | 1 | COLIN, Tony | *Figure 4.1 :* Pseudo-range measurement extracted from *[2]* |
| 29 | 7 | COLIN, Tony | |
| 30 | 7 | COLIN, Tony | h3. b - Demonstration of the Pseudo-ranges with Least Square method. |
| 31 | 7 | COLIN, Tony | |
| 32 | 7 | COLIN, Tony | 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 : |
| 33 | 7 | COLIN, Tony | |
| 34 | 7 | COLIN, Tony | p=. !Pos1.png! |
| 35 | 7 | COLIN, Tony | *Equation 1* |
| 36 | 7 | COLIN, Tony | |
| 37 | 7 | COLIN, Tony | or put in another way, |
| 38 | 7 | COLIN, Tony | |
| 39 | 7 | COLIN, Tony | p=. !Pos2.png! |
| 40 | 7 | COLIN, Tony | *Equation 2* |
| 41 | 7 | COLIN, Tony | |
| 42 | 7 | COLIN, Tony | 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 : |
| 43 | 7 | COLIN, Tony | |
| 44 | 7 | COLIN, Tony | p=. !Pos3.png! |
| 45 | 7 | COLIN, Tony | *Equation 3* |
| 46 | 7 | COLIN, Tony | |
| 47 | 7 | COLIN, Tony | Hence, |
| 48 | 7 | COLIN, Tony | |
| 49 | 7 | COLIN, Tony | p=. !Pos4.png! |
| 50 | 7 | COLIN, Tony | *Equation 4* |
| 51 | 7 | COLIN, Tony | |
| 52 | 7 | COLIN, Tony | or in matrix equation form, |
| 53 | 7 | COLIN, Tony | |
| 54 | 7 | COLIN, Tony | p=. !Pos5.png! |
| 55 | 7 | COLIN, Tony | *Equation 5* |
| 56 | 7 | COLIN, Tony | |
| 57 | 7 | COLIN, Tony | which can be expressed as : |
| 58 | 7 | COLIN, Tony | |
| 59 | 7 | COLIN, Tony | p=. !Pos6.png! |
| 60 | 7 | COLIN, Tony | *Equation 6* |
| 61 | 7 | COLIN, Tony | |
| 62 | 7 | COLIN, Tony | with the Least Square solution : |
| 63 | 7 | COLIN, Tony | |
| 64 | 7 | COLIN, Tony | p=. !Pos7.png! |
| 65 | 7 | COLIN, Tony | *Equation 7* |
| 66 | 7 | COLIN, Tony | |
| 67 | 8 | COLIN, Tony | Thus, it is possible to retrieve the receiver position. |
| 68 | 8 | COLIN, Tony | |
| 69 | 8 | COLIN, Tony | _Note that all unknowns are depicted in red color._ |
| 70 | 5 | COLIN, Tony | |
| 71 | 5 | COLIN, Tony | --- |
| 72 | 5 | COLIN, Tony | |
| 73 | 5 | COLIN, Tony | *References :* |
| 74 | 5 | COLIN, Tony | *[1]* K. Borre, D. M. Akos, N. Bertelsen, P. Rinder, S. H. Jensen, A software-defined GPS and GALILEO receiver |
| 75 | 5 | COLIN, Tony | *[2]* Position Estimation Workshop, March 2016 |