Ionospheric slant total electron content determination from multi-frequency GNSS signals carrier-phase measurements

“…To exclude the influence of DCB and models of its change in space and time on the error of STEC estimation, a method of its estimation based only on processing in GR of phase simultaneous measurements of different frequency ranges by signals of two (or more) NS is proposed [7]. The proposed method of slant PES estimation is based on the hypothesis that this TEC value is identical for signal propagation paths from two NSs having close angular position relative to GR, for example with difference of elevation and azimuth angles for two NS's less than 1° [7,8].…”

“…Continuing the research begun in [7], the objectives of this work were to test the method on the GNSS GLONASS signals under different conditions of ionospheric disturbances, as well as to assess the ambiguity of the obtained signal delays in the ionosphere and TEC in comparison with data from other sources.…”

“…The proposed method of STEC estimation is based on hypothesis about identity of this STEC value for radio signal propagation paths from two NS's having close angular position relative to GR, for example with difference of elevation and azimuth angles for two NS's less than 1° as shown in [7,8]. Then, for j-th and k-th NS at moment t1, when the sighting angles of these NSAs coincide, based on (1) we can write:…”

“…For this reason, TEC estimation based on dual-band code measurements of GLONASS signals may contain an additional methodological error, which will also increase the value of DCB. Estimation of slant TEC on the basis of processing in GR only phase simultaneous measurements in different frequency bands by signals of two (or more) NS [7] allows to minimize the influence of DCB.…”

“…On the other hand, the ballistic construction of the GLONASS orbital constellation guarantees the possibility of repeated observations during a day of two NS of this system with close sighting angles, which is necessary to implement the proposed in [7] method of processing only phase measurements in different frequency bands on the GNSS signals.…”

Features of estimating ionospheric delay from carrier phase observations of dual-frequency GLONASS signals

“…To exclude the influence of DCB and models of its change in space and time on the error of STEC estimation, a method of its estimation based only on processing in GR of phase simultaneous measurements of different frequency ranges by signals of two (or more) NS is proposed [7]. The proposed method of slant PES estimation is based on the hypothesis that this TEC value is identical for signal propagation paths from two NSs having close angular position relative to GR, for example with difference of elevation and azimuth angles for two NS's less than 1° [7,8].…”

“…Continuing the research begun in [7], the objectives of this work were to test the method on the GNSS GLONASS signals under different conditions of ionospheric disturbances, as well as to assess the ambiguity of the obtained signal delays in the ionosphere and TEC in comparison with data from other sources.…”

“…The proposed method of STEC estimation is based on hypothesis about identity of this STEC value for radio signal propagation paths from two NS's having close angular position relative to GR, for example with difference of elevation and azimuth angles for two NS's less than 1° as shown in [7,8]. Then, for j-th and k-th NS at moment t1, when the sighting angles of these NSAs coincide, based on (1) we can write:…”

“…For this reason, TEC estimation based on dual-band code measurements of GLONASS signals may contain an additional methodological error, which will also increase the value of DCB. Estimation of slant TEC on the basis of processing in GR only phase simultaneous measurements in different frequency bands by signals of two (or more) NS [7] allows to minimize the influence of DCB.…”

“…On the other hand, the ballistic construction of the GLONASS orbital constellation guarantees the possibility of repeated observations during a day of two NS of this system with close sighting angles, which is necessary to implement the proposed in [7] method of processing only phase measurements in different frequency bands on the GNSS signals.…”

Features of estimating ionospheric delay from carrier phase observations of dual-frequency GLONASS signals

A simple ionospheric correction method for radar-based space surveillance systems, with performance assessment on GRAVES data