WFCatalog: A catalogue for seismological waveform data

Trani, Luca; Koymans, Mathijs; Atkinson, Malcolm; Sleeman, Reinoud; Filgueira, Rosa

doi:10.1016/j.cageo.2017.06.008

Cited by 11 publications

(12 citation statements)

References 13 publications

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“…The presented scheme will help to provide quality measures for ring laser data of ROMY and possible other instruments, when the database becomes publicly available. It is planned to run a service similar to the FDSN webservice “waveform catalogue” [ 20 ], which consists of a database with corresponding quality measures entries. The remote user will then be able to select only those data which meet predefined quality criteria.…”

Section: Resultsmentioning

confidence: 99%

Automated Quality Assessment of Interferometric Ring Laser Data

Brotzer

Bernauer

Wassermann

et al. 2021

Sensors

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In seismology, an increased effort to observe all 12 degrees of freedom of seismic ground motion by complementing translational ground motion observations with measurements of strain and rotational motions could be witnessed in recent decades, aiming at an enhanced probing and understanding of Earth and other planetary bodies. The evolution of optical instrumentation, in particular large-scale ring laser installations, such as G-ring and ROMY (ROtational Motion in seismologY), and their geoscientific application have contributed significantly to the emergence of this scientific field. The currently most advanced, large-scale ring laser array is ROMY, which is unprecedented in scale and design. As a heterolithic structure, ROMY’s ring laser components are subject to optical frequency drifts. Such Sagnac interferometers require new considerations and approaches concerning data acquisition, processing and quality assessment, compared to conventional, mechanical instrumentation. We present an automated approach to assess the data quality and the performance of a ring laser, based on characteristics of the interferometric Sagnac signal. The developed scheme is applied to ROMY data to detect compromised operation states and assign quality flags. When ROMY’s database becomes publicly accessible, this assessment will be employed to provide a quality control feature for data requests.

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Section: Resultsmentioning

confidence: 99%

Automated Quality Assessment of Interferometric Ring Laser Data

Brotzer

Bernauer

Wassermann

et al. 2021

Sensors

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“…These should then be repeated periodically to detect trends. Our framework builds on similar approaches that exploit catalogues and agreed canonical forms in the seismological domain [67]. That experience provided us with useful evidence of benefits and adoption although it has been applied in a more tractable context.…”

Section: Discussionmentioning

confidence: 99%

Establishing Core Concepts for Information-Powered Collaborations

Trani¹,

Atkinson²,

Bailo³

et al. 2018

Future Generation Computer Systems

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“…5) that communicate with each other via an Advanced Message Queuing Protocol system (ISO/IEC 19464, 2014). Four databases are populated at this stage: (1) inventories of networks, stations, channels, and responses; (2) waveform inventories (PostgreSQL databases, PostgreSQL Global Development Group, 1996); (3) metrics and data quality information (MongoDB -EIDA WFCatalog database, MongoDB, Inc., 2009;Trani et al, 2017); (4) elements for monitoring the integration operations (PostgreSQL). Consistency of information within and between databases (1), (2), and (3) is guaranteed by construction.…”

Section: Data and Metadata Workflowsmentioning

confidence: 99%

RÉSIF-SI: A Distributed Information System for French Seismological Data

Péquegnat

Schaeffer

Satriano

et al. 2021

Seismological Research Letters

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The Résif project, which started in 2008, aims at gathering under a common research infrastructure the French seismological, Global Navigation Satellite Systems and gravimeter permanent networks, as well as the mobile instrument pools. A central part of Résif is its seismological information system, Système d'Information de Résif (Résif-SI) (started in 2012), which is in charge of collecting, validating, archiving, and distributing seismological data and metadata from seven national centers. Résif-SI follows a distributed architecture, in which the six data collection and validation centers (A-nodes) send validated data and metadata to a national data center (Résif Data Center [Résif-DC]), which is the central point for data archiving and distribution. Résif-SI is based on international standard formats and protocols, and is fully integrated into European and international data exchange systems (European Integrated Data Archive, European Plate Observing System [EPOS], Incorporated Research Institutions for Seismology, International Federation of Digital Seismograph Networks). In this article, we present the organization of Résif-SI, the technical details of its implementation, and the catalog of services provided to the end users. The article is aimed both at seismologists, who want to discover and use Résif data, and at data center operators, who might be interested in the technical choices made in the implementation of Résif-SI. We believe that Résif-SI can be a model for other countries facing the problem of integrating different organizations into a centralized seismological information system.

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WFCatalog: A catalogue for seismological waveform data

Cited by 11 publications

References 13 publications

Automated Quality Assessment of Interferometric Ring Laser Data

Automated Quality Assessment of Interferometric Ring Laser Data

Establishing Core Concepts for Information-Powered Collaborations

RÉSIF-SI: A Distributed Information System for French Seismological Data

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