Method for determining a confidence indicator relating to the trajectory followed by a moving object

摘要

A method includes estimating the position of the moving object on the basis of the reception of navigation signals emitted by a constellation of satellites, the navigation signals being modulated by a code and the receiver comprising a local replica of the code. The determination of the confidence indicator consists in estimating a speed of displacement of the receiver over an identified trajectory segment, deducing therefrom a Doppler delay function corresponding to the motion of the receiver, in correcting the auto-correlation function of the GNSS navigation signal received from each satellite of the constellation by means of the delay function, in comparing the corrected auto-correlation function with a theoretical auto-correlation function by applying a quadratic criterion corresponding to the confidence indicator.

主权项

1. A method for determining a confidence indicator relating to a trajectory of a moving object equipped with a GNSS receiver able to estimate a position of the moving object on a basis of a reception of navigation signals emitted by a constellation of satellites, the navigation signals being modulated by a code and the GNSS receiver comprising a local replica of the code, said method comprising the following steps:
a. estimating with the GNSS receiver successive positions of the GNSS receiver at various instants of position measurement, b. identifying with the GNSS receiver a trajectory segment passing in proximity to the successive estimated positions, c. determining with the GNSS receiver successive auto-correlation functions between the navigation signals received and the local replica of the code, d. making an assumption with the GNSS receiver about a speed of displacement of the GNSS receiver over the identified trajectory segment, e. deducing with the GNSS receiver from the assumption about the speed of displacement of the GNSS receiver, a Doppler delay function corresponding to a motion of the GNSS receiver, f. applying with the GNSS receiver the Doppler delay function to each auto-correlation function determined in step c and deducing therefrom corrected auto-correlation functions, g. summing with the GNSS receiver the corrected auto-correlation functions, a result of the summation corresponding to the corrected auto-correlation function {circumflex over (R)}(τ) of the navigation signal, and h. comparing with the GNSS receiver the result of the summation of the corrected auto-correlation functions {circumflex over (R)}(τ) with a theoretical auto-correlation function RTheo(τ) and deducing therefrom a confidence indicator that the trajectory segment identified corresponds to a real trajectory followed by the moving object equipped with the GNSS receiver.