Ionized layer error estimation method and system for binary offset carrier (BOC) signal
An ionospheric error and offset carrier technology, applied in the field of navigation, can solve problems such as high cost and ionospheric delay estimation failure, and achieve the effect of less measurement noise and less multipath effect.
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Embodiment 1
[0105] Embodiment 1, a method for estimating an ionospheric error of a binary offset carrier signal, comprising:
[0106] Perform pseudorandom noise code, BOC subcarrier and carrier phase tracking on the intermediate frequency signal through the BOC signal tracking loop to obtain the first carrier phase;
[0107] tracking the upper sideband signal of the intermediate frequency signal to obtain a second carrier phase;
[0108] tracking the lower sideband signal of the intermediate frequency signal to obtain a third carrier phase;
[0109] According to the difference between the first carrier phase and the second carrier phase, and the difference between the first carrier phase and the third carrier phase, and the frequency of the center frequency of the BOC modulation signal, the upper sideband signal and the lower sideband signal, the total electron content TEC is obtained;
[0110] The error introduced by the ionospheric refraction in the carrier phase and pseudo-range obser...
Embodiment 2
[0148] Embodiment 2, an ionospheric error estimation system of a binary offset carrier signal, comprising:
[0149] The BOC signal tracking loop is used for performing pseudo-random noise code, BOC subcarrier and carrier phase tracking on the intermediate frequency signal to obtain the first carrier phase;
[0150] an upper sideband tracking unit, configured to track the upper sideband signal of the intermediate frequency signal to obtain a second carrier phase;
[0151] A lower sideband tracking unit, configured to track the lower sideband signal of the intermediate frequency signal to obtain a third carrier phase;
[0152] The ionospheric information extraction unit is used for according to the difference between the first carrier phase and the second carrier phase, and the difference between the first carrier phase and the third carrier phase, and the center frequency of the BOC modulation signal, the frequency of the upper sideband signal and the lower sideband signal , t...
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