Ralf Löwner scite author profile

Ralf Löwner

5Publications

10Citation Statements Received

9Citation Statements Given

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Affiliations

Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences, Chouaib Doukkali University

Publications

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Field Data and the Gas Hydrate Markup Language

Löwner

Cherkashov

Pecher³

et al. 2007

Data Sci. J.

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Data and information exchange are crucial for any kind of scientific research activities and are becoming more and more important. The comparison between different data sets and different disciplines creates new data, adds value, and finally accumulates knowledge. Also the distribution and accessibility of research results is an important factor for international work. The gas hydrate research community is dispersed across the globe and therefore, a common technical communication language or format is strongly demanded. The CODATA Gas Hydrate Data Task Group is creating the Gas Hydrate Markup Language (GHML), a standard based on the Extensible Markup Language (XML) to enable the transport, modeling, and storage of all manner of objects related to gas hydrate research. GHML initially offers an easily deducible content because of the text-based encoding of information, which does not use binary data. The result of these investigations is a custom-designed application schema, which describes the features, elements, and their properties, defining all aspects of Gas Hydrates. One of the components of GHML is the "Field Data" module, which is used for all data and information coming from the field. It considers international standards, particularly the standards defined by the W3C (World Wide Web Consortium) and the OGC (Open Geospatial Consortium). Various related standards were analyzed and compared with our requirements (in particular the Geographic Markup Language (ISO19136, GML) and the whole ISO19000 series). However, the requirements demanded a quick solution and an XML application schema readable for any scientist without a background in information technology. Therefore, ideas, concepts and definitions have been used to build up the modules of GHML without importing any of these Markup languages. This enables a comprehensive schema and simple use. An extensive documentation ensures the usability of the "Field Data" module consisting of a detailed explanation integrated in the application schema, an HTML-based document, and a detailed documentation. Because of the close collaboration of gas hydrate experts and specialists in Geoinformatics, the application schema of GHML is user-oriented and contains all possible aspects of this research field. The usability is the assessment factor for GHML.

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HydrIS: An open source GIS decision support system for groundwater management (Morocco)

Oulidi¹,

Löwner²,

Benaabidate³

et al. 2009

Geo-spatial Information Science

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A regional groundwater management system has been elaborated, integrating Relational Database Management System (RDBMS) and various web services. It consists of web geospatial application so-called HydrIS ( Hydrogeological Information System) based on Open Source components and technologies, leading to a feasible and low-cost solution. Therefore, HydrIS permits delivery of data from a number of heterogeneous sources to standards supported by the Open Geospatial Consortium (OGC). The protocols used for exchanging data are also derived from OGC standards, i.e., WMS (Web Mapping Service), WFS (Web Feature Service), and WCS (Web Coverage Service). Finally, a geoportal was developed, which consists of client-applications that communicate with different Web Services (WMS, WCS, and WFS) through HTTP-requests.A prototype for web-based GIS application was designed using the deegree Framework to provide systematic interfaces and functions. This system was developed to demonstrate the value of making hydrogeological data more widely accessible through client/server architecture. This experience and knowledge already gained in this project will be a source for technology transfer and policy decisions. Otherwise, this will enable user groups to improve the management of their groundwater resources and contribute to enhanced decision support capabilities.

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Management Strategies of Water Resources in the Arid Zone of South-Eastern Morocco

Oulidi¹,

Benaabidate²,

Löwner

et al.

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Mallik Data and Information System - development of a scientific data exchange platform

Löwner¹,

Conze²

2005

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The Mallik Data and Information System facilitates acquisition, integration, and dissemination of interdisciplinary data and provides a secure, accessible archive of quality controlled scientific results during the Mallik 2002 Gas Hydrate Production Research Well Program. Three main components comprise the system: 1) a specifically created Mallik Data and Information System (Mallik DIS) used for on-site data acquisition, including a digital scanner, which produced a catalogue of digital core images; 2) the data warehouse, a powerful database and archive, providing members of the Mallik science teams with access to project data sets via Internet; and 3) the web portal of the International Continental Scientific Drilling Program information network allowing for interactive retrieval, visualization, and integration of the separate data sets.

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Environmental risk management in the Region of Safi , Morocco

Löwner¹,

Theilen‐Willige²,

Bchari³

et al. 2014

zgp1

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Ralf Löwner

Field Data and the Gas Hydrate Markup Language

HydrIS: An open source GIS decision support system for groundwater management (Morocco)

Management Strategies of Water Resources in the Arid Zone of South-Eastern Morocco

Mallik Data and Information System - development of a scientific data exchange platform

Environmental risk management in the Region of Safi , Morocco

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