Method to extend operationability of web-GIS based marine services using SSE platform

Drypczewski, K.; Stepnowski, A.; Bruniecki, K.

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Tytuł artykułu

Method to extend operationability of web-GIS based marine services using SSE platform

Autorzy

Drypczewski K. , Stepnowski A. , Bruniecki K.

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Abstrakty

Earth Observation (EO) products are widely used by geospatial society. Over the last years a number of new applications of satellite imagery were proposed. This led to an increased interest in EO products, not only from researchers but also from companies and individuals. The authors constitute the essential part of the team that created the marine, web-GIS system - SafeCity GIS - for dissemination of data obtained from a 1.5 metre HRPT-MetOp satellite ground receiving station. To increase the operationability of the system the authors successfully attempted to broaden the offered functionality by integration with Service Support Environment (SSE). Due to this, EO products for the Pomeranian Region are served as web-services; amongst them there are True Color imagery, meteorological, algae monitoring and fire-detection services. The authors present the created solution for web service support for GIS system based on Service Support Environment and discuss its advantages and disadvantages.

Słowa kluczowe

EO GIS SSE HRPT MetoOp SafeCity GIS

Wydawca

Gdańsk University of Technology, Faculty of Ocean Engineering & Ship Technology

Czasopismo

Polish Maritime Research

Rocznik

2015

Tom

nr 4

Strony

21--26

Opis fizyczny

Bibliogr. 16 poz., rys.

Twórcy

autor

Drypczewski K.

kszyk@eti.pg.gda.pl

Gdańsk Univeristy of Technology, Poland

autor

Stepnowski A.

astep@eti.pg.gda.pl

Gdańsk Univeristy of Technology, Poland

autor

Bruniecki K.

krzysztof.bruniecki@eti.pg.gda.pl

Gdańsk Univeristy of Technology, Poland

Bibliografia

1. Final report on the ESA PECS Project implementation, ESTEC/Contract No. 4000105693/12/NL/KML, Development, testing, demonstration and dissemination of innovative Web-based Geographical Information System for threat monitoring, prediction, and risk analysis for the municipal area - Safe City GIS, 2014
2. High Performance Computing in Remote Sensing, Plaza, A. J.; Chang, Ch. Publisher: Chapman & Hall/CRC Computer & Information Science Series, ISBN: 978-1584886624
3. Lee T. M., Tag P. M.: Improved detection of hotspots using the AVHRR 3.7 μm channel, Bulletin of The American Metrological Society 1990, 71, pp. 1722–1730
4. Markiewicz Ł., Chybicki A., Drypczewski K., Bruniecki K., Dąbrowski J.: Operational Enhancement of Numerical Weather Prediction with Data from Real-time Satellite Images In: Marine Navigation and Safety of Sea Transportation: Navigational Problems.-,2013,s.217-221
5. Moszyński M., Kulawiak M., Chybicki A., Łubniewski Z., Bruniecki K., Bieliński T., Stepnowski A.: Innovative Webbased Geographic Information System for Municipal Areas and Coastal Zone Security and Threat Monitoring Using EO Satellite Data, Marine Geodesy, Vol. 38 No. 3, 2015, pp. 203-224
6. Pu R., Gong P., Li Z.: Scarborough, J. A dynamic algorithm for wildfire mapping with NOAA/AVHRR data, International Journal of Wildland Fire 2004, 13(3), 275-285
7. Service Support Environment Experiment Excellence. URL http://services.eoportal.org/massRef/documentation/SSE-Brochure.pdf (accessed on: 20 02 2015)
8. Technical specifications and details of the Dartcom Windows™ HRPT/CHRPT/MetOp data reception and processing ground station. URL ftp://ftp.dartcom.co.uk/pub/COMS-1/HRPT-CHRPT-AHRPT%201.5m%203rd%20Generation%20V12.pdf (accessed 17 01 2014)
9. Web Services Glossary. URL http://www.w3.org/TR/2004/NOTE-ws-gloss-20040211/#webservice (accessed on: 2802 2015)
10. Workshop materials of the 2013 SSE Service Providers Training ESA – ESRIN, Frascati, Italy, 18-19 April 2013, Research Service Support (RSS) team, unpublished report
11. Wu A., Xiong X., Angal A.: Derive a MODIS-Based Calibration for the AVHRR Reflective Solar Channels of the NOAA KLM Operational Satellites. Geoscience and Remote Sensing, IEEE Transactions on , vol.51, no.3, 2013, pp.1405-1413,
12. Zhua A. X., Hudson B., Burt J., Lubich K., Simonsond D.: Soil Mapping Using GIS, Expert Knowledge, and Fuzzy Logic. Soil Science Soc. of Am. Jour 2001, Vol. 65 No. 5, pp. 1463-1472
13. Dąbrowski, J., Kulawiak, M., Moszyński, M., Bruniecki, K., Kamiński, Ł., Chybicki, A., & Stepnowski, A. (2009). Real-time web-based GIS for analysis, visualization and integration of marine environment data. In Information Fusion and Geographic Information Systems (pp. 277-288). Springer Berlin Heidelberg.
14. Kulawiak, M., Chybicki, A., & Moszynski, M. (2010). Web-based GIS as a tool for supporting marine research. Marine Geodesy, 33(2-3), 135-153.
15. Moszynski, M., Chybicki, A., Kulawiak, M., & Lubniewski, Z. (2013). A novel method for archiving multibeam sonar data with emphasis on efficient record size reduction and storage. Polish Maritime Research, 20(1), 77-86.
16. Janowski, A., Jurkowska, A., Lewczuk, D., Szulwic, J., & Zaradny, A. (2014). Assessment of cliff stability after the demolition of the engineering facilities. InConference Proceedings of SGEM: Multidisciplinary Scientific Conferences. Albena, Bulgaria.

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Bibliografia

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