期刊论文详细信息
Complex Systems Informatics and Modeling Quarterly
Metadata Extraction and Management in Data Lakes With GEMMS
Rihan Hai1  Ivan Vatov2  Christoph Quix3 
[1] Databases and Information Systems, RWTH Aachen University, Templergraben 55, 52062 Aachen;Databases and Information Systems, RWTH Aachen University, Templergraben 55, 52062 Aachen;Fraunhofer-Institute for Applied Information Technology FIT, Schloss Birlinghoven 53754 Sankt Augustin;
关键词: Metadata management;    data integration;    scientific data;    metadata extraction;    data lakes;   
DOI  :  10.7250/csimq.2016-9.04
来源: DOAJ
【 摘 要 】

In addition to volume and velocity, Big data is also characterized by its variety. Variety in structure and semantics requires new integration approaches which can resolve the integration challenges also for large volumes of data. Data lakes should reduce the upfront integration costs and provide a more flexible way for data integration and analysis, as source data is loaded in its original structure to the data lake repository. Some syntactic transformation might be applied to enable access to the data in one common repository; however, a deep semantic integration is done only after the initial loading of the data into the data lake. Thereby, data is easily made available and can be restructured, aggregated, and transformed as required by later applications. Metadata management is a crucial component in a data lake, as the source data needs to be described by metadata to capture its semantics. We developed a Generic and Extensible Metadata Management System for data lakes (called GEMMS) that aims at the automatic extraction of metadata from a wide variety of data sources. Furthermore, the metadata is managed in an extensible metamodel that distinguishes structural and semantical metadata. The use case applied for evaluation is from the life science domain where the data is often stored only in files which hinders data access and efficient querying. The GEMMS framework has been proven to be useful in this domain. Especially, the extensibility and flexibility of the framework are important, as data and metadata structures in scientific experiments cannot be defined a priori.

【 授权许可】

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