Method and system for localizing mobile communications terminals

The invention claimed is: 1. A method of determining a geographic position of a user terminal comprising a receiver of signals of a global navigation satellite system, the method comprising: performing, at the user terminal, pseudo-range measurements related to a plurality of signals received from transmitters of the global navigation satellite system; calculating, at the user terminal, a first estimated position thereof by means of a weighted least square method; calculating, at the user terminal, post-fix residuals for the first estimated position; comparing, at the user terminal, the calculated post-fix residuals to a first threshold; in case the first threshold is exceeded, calculating, at the user terminal, a second estimated position using a Monte-Carlo method; and in case the first threshold is not exceeded, retaining, at the user terminal, the first estimated position as the geographic position of the mobile communications terminal. 2. The method of claim 1 , wherein said comparing the calculated post-fix residuals to the first threshold comprises: calculating a sum of the squared values of the post-fix residuals, normalized to an expected variance of a Gaussian error model; calculating a χ 2 distribution of the post-fix residuals; selecting the first threshold as a threshold of the χ 2 distribution corresponding to a first predetermined degree of confidence of the measurements. 3. The method of claim 2 , wherein said first predetermined degree of confidence is approximately 67%. 4. The method of claim 2 , wherein said calculating a second estimated position using the Monte-Carlo method comprises: defining a width of a set of candidate solutions for the application of the Monte Carlo method, said width depending on information made available as a result of the calculation of the first estimated position using the weighted least square method. 5. The method of claim 4 , wherein the width of the set of candidate solutions is defined as follows: for values of the summation of the squared post-fit residuals intermediate between the first threshold and a second, higher threshold, choosing a set of candidate solutions limited to an area around the position estimated by the weighted least square method equal to at most approximately 1.5 times the DRMS and the VDOP; for values of the summation of the squared post-fit residuals higher than the second threshold, choosing a set of candidate solutions extended to an area around the position estimated by the weighted least square method equal to about 3 times the DRMS and the VDOP. 6. The method of claim 5 , wherein said second threshold corresponds to a second predetermined degree of confidence of approximately 95%. 7. The method of claim 1 , wherein said calculating a second estimated position using a Monte-Carlo method comprises performing a sequential Monte Carlo method by repeatedly applying the Monte-Carlo method for pseudo-range measurements performed at different time instants. 8. A user terminal comprising: a receiver configured to receive signals from a global navigation satellite system; and a processor circuit configured to: perform pseudo-range measurements related to a plurality of signals received from transmitters of the global navigation satellite system; calculate a first estimated position thereof by means of a weighted least square method; calculate post-fix residuals for the first estimated position; compare the calculated post-fix residuals to a first threshold; in case the first threshold is exceeded, calculate a second estimated position using a Monte-Carlo method; and in case the first threshold is not exceeded, retain the first estimated position as the geographic position of the mobile communications terminal.