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The GNSS data and metadata management system through the EPOS-GNSS framework and the IRN Node (INGV)
Author(s)
Royal Observatory of Belgium
Menut, Jean-Luc
Université Côte d’Azur, Observatoire de la Côte d’Azur (OCA)
Language
English
Status
Published
JCR Journal
N/A or not JCR
Peer review journal
Yes
Title of the book
Rapporti Tecnici INGV
Issue/vol(year)
488/ (2024)
Issued date
October 28, 2024
Abstract
This document describes the services for managing the Global Navigation Satellite System (GNSS)
data that have been developed at the Istituto Nazionale di Geofisica e Vulcanologia (INGV) within
the context of the European-funded research infrastructure EPOS (European Plate Observing
System) program. These services, optimised for solid Earth research applications, seek to harmonise
and standardise the collection and quality control of GNSS data and metadata.
The EPOS Thematic Core Services (TCS) GNSS developed an architecture based on Geodetic
Linkage Advance System Software (GLASS) nodes which hosts the metadata information and allows
access to the entire database from the web and a datacenter which hosts the data to distribute.
INGV contributes to the EPOS TCS GNSS initiative by managing the GLASS Italian Ring Node (IRN)
[1], to provide data and metadata from the Rete Integrata Nazionale GNSS (RING) network [2]. The
RING network currently consists of approximately 250 permanent stations all over Italy and abroad
(Greece and Malta) installed for the study of active tectonic deformation at regional (Eurasia-Africa
plate boundary) and local (seismogenic faults) scales.
In support of this infrastructure, INGV is developing and managing different software: Flask Web
Service Server (FWSS) which is an interface with the local database to store the metadata;
bancadati_sync which is the script to synchronise the RINEX data repository from the source to the
local IRN node; gnss_indexer which automates the process to populate the database;
ring_synchronization to upload the sitelog metadata of the GNSS stations, and other software tools
to let the system working.
All software was developed in Python language (version 3.10) while the PostgreSQL database is
used to store the information.
data that have been developed at the Istituto Nazionale di Geofisica e Vulcanologia (INGV) within
the context of the European-funded research infrastructure EPOS (European Plate Observing
System) program. These services, optimised for solid Earth research applications, seek to harmonise
and standardise the collection and quality control of GNSS data and metadata.
The EPOS Thematic Core Services (TCS) GNSS developed an architecture based on Geodetic
Linkage Advance System Software (GLASS) nodes which hosts the metadata information and allows
access to the entire database from the web and a datacenter which hosts the data to distribute.
INGV contributes to the EPOS TCS GNSS initiative by managing the GLASS Italian Ring Node (IRN)
[1], to provide data and metadata from the Rete Integrata Nazionale GNSS (RING) network [2]. The
RING network currently consists of approximately 250 permanent stations all over Italy and abroad
(Greece and Malta) installed for the study of active tectonic deformation at regional (Eurasia-Africa
plate boundary) and local (seismogenic faults) scales.
In support of this infrastructure, INGV is developing and managing different software: Flask Web
Service Server (FWSS) which is an interface with the local database to store the metadata;
bancadati_sync which is the script to synchronise the RINEX data repository from the source to the
local IRN node; gnss_indexer which automates the process to populate the database;
ring_synchronization to upload the sitelog metadata of the GNSS stations, and other software tools
to let the system working.
All software was developed in Python language (version 3.10) while the PostgreSQL database is
used to store the information.
Sponsors
INGV
Type
article
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