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The Design of Monitoring and Data Infrastructures – Applying a forward-thinking Reference Architecture

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Climate Change is an extraordinary challenge for the
development of our socioeconomic environment. The compilation
of comprehensive knowledge about our physical environment is a
key importance for implementing of mitigation strategies. Long-
term terrestrial observatories are supporting the systematic
monitoring of environmental parameters. They are responsible
for data collection, data analysis and subsequently for decision
support. Not only the complex structure and the large volume of
data streams but also the necessary integration of existing
monitoring infrastructures for such observatories imply special
technological challenges for today’s scientific data and
information management. Recent developments of Information
and Communication Technology provide important conceptual
and technological input for the proper design and
implementation of underlying monitoring and data
infrastructures. To avoid constantly recurring system
developments for such infrastructures, a general and integrated
approach for a reference architecture concept is needed.

Published in: Science
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The Design of Monitoring and Data Infrastructures – Applying a forward-thinking Reference Architecture

  1. 1. The Design of Monitoring and Data Infrastructures – Applying a forward-thinking Reference Architecture Matthias Schroeder, Vivien Stender, Jens Klump, and Joachim Wächter Helmholtz Centre Potsdam, GFZ German Research Centre for Geosciences Ralf Kunkel Institute of Bio- and Geosciences (IBG), Research Centre Jülich, Germany
  2. 2. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France 2 •Introduction •Challenges for TERENO Northeast (NE) •General Architecture Concept •Integrated Reference Architecture Model •Perspectives •Closing Up CONTENT
  3. 3. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France INTRODUCTION 3
  4. 4. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France TERENO NORTHEAST 4
  5. 5. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France 5
  6. 6. Establishing a monitoring infrastructure for: •Data Management, •Data Workflows, •Data Modeling, •and Visualizations. Special challenges are: •Heterogeneous data sources •Large volumes of data streams •Integration in existing infrastructures •Various tasks like acquisition, processing, visualization, and archiving ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France CHALLENGES FOR TERENO (NE) 6
  7. 7. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France GENERAL ARCHITECTURE CONCEPT 7
  8. 8. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France INTEGRATED ARCHITECTURE MODEL 8
  9. 9. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France INTEGRATED ARCHITECTURE MODEL 9
  10. 10. •Use SOA principles and Enter- prise Service Bus (ESB) tech- nologies •Use of Observation & Measure- ment (O&M) •Use Sensor Model Language (SensorML) •Use of Sensor Web Enablement and OGC Web Services like –SOS –WMS/WFS –CSW ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France INTEGRATED ARCHITECTURE MODEL 10
  11. 11. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France INTEGRATED ARCHITECTURE MODEL 11
  12. 12. •Need of Integrated Reference Architecture (IRA) for similar sensor integration purposes •The SSB-component has to be simplified to exclude real-time applications •SSB has to be enlarged for purposes of long term archiving •In future: Need of easy to use tools for pre-selecting and downloading specific content of data infrastructure ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France PERSPECTIVES 12
  13. 13. •Five environmental observatories within TERENO NE •Data management group objective is an integrated and general reference architecture as reference model •Data of all observatories are published through standardized web services •It allows the reuse and interoperability of the architecture •Refinement of single design steps and full implementation ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France CLOSING UP 13
  14. 14. ICNSC 2013 - IEEE International Conference on Networking, Sensing and Control 10th ICNSC, April 10-12, 2013 Paris-Evry University, France 14 THANKS FOR YOUR ATTENTION

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