Applications of Galileo High Accuracy Service
Loading...
Date
2024-02-28
ORCID
Advisor
Referee
Mark
Journal Title
Journal ISSN
Volume Title
Publisher
Vysoké učení technické v Brně,Fakulta stavební
Altmetrics
Abstract
Od ledna 2023 je pro registrované uživatele k dispozici služba Galileo High Accuracy Service (HAS). V rámci HAS mohou uživatelé získat korekce hodin a oběžné dráhy, stejně jako zkreslení kódu pro konstelace Galileo a GPS. Galileo HAS pokrývá téměř celou zeměkouli a je dalším systémem po japonském CLAS (Japanese Centimeter Level Augmentation Service) a čínském PPP-B2b, který poskytuje korekce prostřednictvím satelitního signálu. Tyto korekce Galileo jsou přenášeny v signálu Galileo E6, ale také prostřednictvím internetu. Oficiální dokument definice služby HAS uvádí, že přesnost polohování je lepší než 25 cm a lepší než 30 cm pro horizontální a vertikální komponenty. Korekce HAS lze použít v různých aplikacích v reálném čase bez připojení k internetu. Předložená práce ukazuje využití korekcí Galileo HAS v různých geovědních aplikacích jako je určování polohy, časování, monitorování troposféry nebo detekce koseismických vibrací. Kromě toho je kvalita přenášené korekce HAS také ověřována pomocí parametru SISRE. Výpočty se provádějí v in-house vyvinutém softwaru GNSS-WARP s korekcemi Internet HAS uloženými v souborech ASCII pomocí softwaru BKG Ntrip Client. Kvalita Galileo HAS korekcí pomocí parametru SISRE činí 8,6 cm pro systém GPS a 13,0 cm pro Galileo. Experiment s PPP (Precise Point Positioning) odhalil sub-decimetrovou a centimetrovou přesnost v kinematickém a statickém přístupu. Pokud jde o přesnost časování, Galileo HAS zajišťuje přesnost jedné nanosekundy. Odhad Zenith Tropospheric Delay s využitím vyhodnocených korekcí splnil požadavek monitorování troposféry a byla možná i detekce koseismických vibrací.
Since January 2023 the Galileo High Accuracy Service (HAS) is available to registered users. Within the HAS users can retrieve clock and orbit corrections, as well as code biases for Galileo and GPS constellations. Galileo HAS covers almost the entire globe and is the next system, after the Japanese CLAS (Japanese Centimeter Level Augmentation Service) and the Chinese PPP-B2b, that provides corrections via a satellite signal. These Galileo corrections are transmitted in the Galileo E6 signal but also via the Internet stream. The official HAS Service Definition Document indicates that the positioning accuracy is better than 25 cm and better than 30 cm for horizontal and vertical components, respectively. HAS corrections can be used in difference real-time applications without Internet connection. The presented work shows the use of Galileo HAS corrections in various geoscience applications such as positioning, timing, troposphere monitoring or coseismic vibrations detection. Additionally, the quality of the transmitted HAS correction is also verified using the SISRE parameter. The computations are carried out in the in-house developed GNSS-WARP software with the Internet HAS corrections saved in the ASCII files by the BKG Ntrip Client software. The Galileo HAS corrections quality using SISRE parameter equal to 8.6 cm and 13.0 cm for GPS and Galileo respectively. The experiment with Precise Point Positioning reveal sub-decimeter and centimeters accuracy in kinematic and static approach, respectively. In terms of timing precision Galileo HAS ensure precision of single nanosecond. Zenith Tropospheric Delay estimation with the use of evaluated corrections meet the requirement of troposphere monitoring and coseismic vibrations detection was also possible.
Since January 2023 the Galileo High Accuracy Service (HAS) is available to registered users. Within the HAS users can retrieve clock and orbit corrections, as well as code biases for Galileo and GPS constellations. Galileo HAS covers almost the entire globe and is the next system, after the Japanese CLAS (Japanese Centimeter Level Augmentation Service) and the Chinese PPP-B2b, that provides corrections via a satellite signal. These Galileo corrections are transmitted in the Galileo E6 signal but also via the Internet stream. The official HAS Service Definition Document indicates that the positioning accuracy is better than 25 cm and better than 30 cm for horizontal and vertical components, respectively. HAS corrections can be used in difference real-time applications without Internet connection. The presented work shows the use of Galileo HAS corrections in various geoscience applications such as positioning, timing, troposphere monitoring or coseismic vibrations detection. Additionally, the quality of the transmitted HAS correction is also verified using the SISRE parameter. The computations are carried out in the in-house developed GNSS-WARP software with the Internet HAS corrections saved in the ASCII files by the BKG Ntrip Client software. The Galileo HAS corrections quality using SISRE parameter equal to 8.6 cm and 13.0 cm for GPS and Galileo respectively. The experiment with Precise Point Positioning reveal sub-decimeter and centimeters accuracy in kinematic and static approach, respectively. In terms of timing precision Galileo HAS ensure precision of single nanosecond. Zenith Tropospheric Delay estimation with the use of evaluated corrections meet the requirement of troposphere monitoring and coseismic vibrations detection was also possible.
Description
Citation
Družicové metody v teorii a praxi 2024, s. 45-46. ISBN 978-80-86433-84-4.
http://geodesy.fce.vutbr.cz/konference/gnss-seminar/
http://geodesy.fce.vutbr.cz/konference/gnss-seminar/
Document type
Peer-reviewed
Document version
Published version
Date of access to the full text
Language of document
en
Study field
Comittee
Date of acceptance
Defence
Result of defence
Document licence
© Vysoké učení technické v Brně,Fakulta stavební