First Results Received in Real Time from the System for High Precision Determination of Ephemeris and Time Information for Civilian Users, and its Development Overview
Transactions of IAA RAS, issue 42, 41–48 (2017)
Keywords: global navigation satellite system, a global system for precision navigation in real time, accuracy of ephemeris/time information, global network of measuring stations, precise point positioning.
About the paper Full textAbstract
The article presents the first results received from running the 1st stage augmentation system of the GLONASS (the global system for highly accurate determination of the navigation and ephemeris/time information in real time for civilian users), which realizes high precision navigation for consumers using the PPP-technology. Assistance information for the consumers at the first stage provides determination of the consumer’s position in real time with a less than 0.1 m error (RMS) in the operational mode and less than 0.05 m in a posteriori mode. The second stage supposes to bring the precision to 0.05 m in the operational mode, and to 0.03 m in a posteriori mode, respectively. Improvements of the accuracy characteristics of the system are scheduled through its own network of measuring stations deployed on foreign territories, the Integer PPP technology implemented, the samples of the navigation equipment created with specified characteristics for the consumers, and assisting data delivered to the consumers by space communication channels.
Citation
V. F. Braginets, Y. G. Sukhoy, I. A. Burdin, V. M. Meshcheryakov. First Results Received in Real Time from the System for High Precision Determination of Ephemeris and Time Information for Civilian Users, and its Development Overview // Transactions of IAA RAS. — 2017. — Issue 42. — P. 41–48.
@article{braginets2017,
abstract = {The article presents the first results received from running the 1st stage augmentation system of the GLONASS (the global system for highly accurate determination of the navigation and ephemeris/time information in real time for civilian users), which realizes high precision navigation for consumers using the PPP-technology. Assistance information for the consumers at the first stage provides determination of the consumer’s position in real time with a less than 0.1 m error (RMS) in the operational mode and less than 0.05 m in a posteriori mode. The second stage supposes to bring the precision to 0.05 m in the operational mode, and to 0.03 m in a posteriori mode, respectively. Improvements of the accuracy characteristics of the system are scheduled through its own network of measuring stations deployed on foreign territories, the Integer PPP technology implemented, the samples of the navigation equipment created with specified characteristics for the consumers, and assisting data delivered to the consumers by space communication channels.},
author = {V.~F. Braginets and Y.~G. Sukhoy and I.~A. Burdin and V.~M. Meshcheryakov},
issue = {42},
journal = {Transactions of IAA RAS},
keyword = {global navigation satellite system, a global system for precision navigation in real time, accuracy of ephemeris/time information, global network of measuring stations, precise point positioning},
pages = {41--48},
title = {First Results Received in Real Time from the System for High Precision Determination of Ephemeris and Time Information for Civilian Users, and its Development Overview},
url = {http://iaaras.ru/en/library/paper/1743/},
year = {2017}
}
TY - JOUR
TI - First Results Received in Real Time from the System for High Precision Determination of Ephemeris and Time Information for Civilian Users, and its Development Overview
AU - Braginets, V. F.
AU - Sukhoy, Y. G.
AU - Burdin, I. A.
AU - Meshcheryakov, V. M.
PY - 2017
T2 - Transactions of IAA RAS
IS - 42
SP - 41
AB - The article presents the first results received from running the 1st
stage augmentation system of the GLONASS (the global system for
highly accurate determination of the navigation and ephemeris/time
information in real time for civilian users), which realizes high
precision navigation for consumers using the PPP-technology.
Assistance information for the consumers at the first stage provides
determination of the consumer’s position in real time with a less
than 0.1 m error (RMS) in the operational mode and less than 0.05 m
in a posteriori mode. The second stage supposes to bring the
precision to 0.05 m in the operational mode, and to 0.03 m in a
posteriori mode, respectively. Improvements of the accuracy
characteristics of the system are scheduled through its own network
of measuring stations deployed on foreign territories, the Integer
PPP technology implemented, the samples of the navigation equipment
created with specified characteristics for the consumers, and
assisting data delivered to the consumers by space communication
channels.
UR - http://iaaras.ru/en/library/paper/1743/
ER -