A new PPP one-way timing approach via BDS-3 PPP-B2b and short-message communication service

•Proposed a new PPP one-way timing method based on PPP-B2b and GSMC service.•Clock prediction model is promoted to account for the transmission delay.•Studied the performance of the new PPP one-way timing method. In the realm of time-frequency, precise point positioning (PPP) technology has been wid...

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Published inMeasurement : journal of the International Measurement Confederation Vol. 240; p. 115557
Main Authors Wang, Yong, Ge, Yulong, Jiang, Weiping, Liu, Tianjun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 30.01.2025
Subjects
BDS-3
Global short-message communication
One-way timing
PPP
PPP-B2b
PPP
Global short-message communication
One-way timing
BDS-3
PPP-B2b
Online AccessGet full text
ISSN0263-2241
DOI10.1016/j.measurement.2024.115557

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Abstract •Proposed a new PPP one-way timing method based on PPP-B2b and GSMC service.•Clock prediction model is promoted to account for the transmission delay.•Studied the performance of the new PPP one-way timing method. In the realm of time-frequency, precise point positioning (PPP) technology has been widely used, the current PPP time transfer or timing necessitates network communication for data transmission, which consequently leads to a reduction in the reliability of PPP timing. Based on the BDS-3 PPP service (PPP-B2b) and the global short message communication (GSMC) service, this study proposes a novel PPP one-way timing method that is not subject to distance limitations or the requirements of network communication. Users can directly obtain the difference with UTC(k). Then, the proposed PPP timing method was validated using four stations equipped with external high-performance atomic clocks, based on a dataset of eight days. According to the findings, the suggested PPP one-way timing technique might reach a timing accuracy of roughly 0.5 ns in environments without a network. In terms of frequency stability, the proposed PPP timing method exhibits a stability of approximately 1.4 × 10−13 at 960 s and a stability of about 3 × 10−14 at 15360 s. Further, even under GSMC communication delays of 1 min, 5 min, and 10 min, the proposed PPP one-way timing accuracy can still achieve better than 0.5 ns.
AbstractList •Proposed a new PPP one-way timing method based on PPP-B2b and GSMC service.•Clock prediction model is promoted to account for the transmission delay.•Studied the performance of the new PPP one-way timing method. In the realm of time-frequency, precise point positioning (PPP) technology has been widely used, the current PPP time transfer or timing necessitates network communication for data transmission, which consequently leads to a reduction in the reliability of PPP timing. Based on the BDS-3 PPP service (PPP-B2b) and the global short message communication (GSMC) service, this study proposes a novel PPP one-way timing method that is not subject to distance limitations or the requirements of network communication. Users can directly obtain the difference with UTC(k). Then, the proposed PPP timing method was validated using four stations equipped with external high-performance atomic clocks, based on a dataset of eight days. According to the findings, the suggested PPP one-way timing technique might reach a timing accuracy of roughly 0.5 ns in environments without a network. In terms of frequency stability, the proposed PPP timing method exhibits a stability of approximately 1.4 × 10−13 at 960 s and a stability of about 3 × 10−14 at 15360 s. Further, even under GSMC communication delays of 1 min, 5 min, and 10 min, the proposed PPP one-way timing accuracy can still achieve better than 0.5 ns.
ArticleNumber 115557
Author Jiang, Weiping
Liu, Tianjun
Ge, Yulong
Wang, Yong
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One-way timing
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Snippet •Proposed a new PPP one-way timing method based on PPP-B2b and GSMC service.•Clock prediction model is promoted to account for the transmission delay.•Studied...
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SubjectTerms BDS-3
Global short-message communication
One-way timing
PPP
PPP-B2b
Title A new PPP one-way timing approach via BDS-3 PPP-B2b and short-message communication service
URI https://dx.doi.org/10.1016/j.measurement.2024.115557
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