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Transcript of 1 Seminar « Biomedicine and scientific research » University of Bern, August 26, 2005 GeoSpatial...
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Seminar « Biomedicine and scientific research »University of Bern, August 26, 2005
GeoSpatial Information System (GIS)GeoSpatial Information System (GIS)
for environmental modellingfor environmental modelling
Short presentation (10 min)Short presentation (10 min)
Pierre-Alain Gretillat, PhDPierre-Alain Gretillat, PhDE-mail: [email protected]
Supervisor : Mahmoud Bouzelboudjen, PhDSupervisor : Mahmoud Bouzelboudjen, PhDResponsable GIS & Formation, & Chargé de Cours
Service Informatique et Télématique University of Neuchâtel – E-mail: [email protected]
SITEL, University of Neuchâtel, SwitzerlandSITEL, University of Neuchâtel, Switzerland
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Personal PresentationFormation (University of Neuchâtel) :• Geologist dipl. in 1985• Hydrogeologist dipl. in 1986• PhD in 1996• Theology Lic. in 2000
Jobs:• Management and survey of groundwater, especially in karst and
fractured limestone. • Consultant in Jura
Actually:• From May to November, stage in SITEL/University of Neuchâtel.• Presentation about 3,5 work’s months
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Works during the stage in SITEL/UniNE (Computer Service)
Between May,2 and August,15
• Formation :• Data Base and GIS• Web technique• Statistics
• Project GBIF : • Creation of the website www.gbif.ch with the CMS1 « Jahia »
• Applications connected to the management of the spatial data base
and GIS :• Numerical map and GIS
1 Content Management Service
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GeoSpatial Information Systemfor environmental modelling
1. Introduction
2. GIS: Geospatial Information System
3. My contribution : data base design, visualization and web cartography
4. Conclusion and future work
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1. Introduction The Problem...
“Accumulation of data is meaningless unless it is underlain by a clear definition of our goals and our definitions about how we shall use and structure that science towards an informed, decision-making process.”
(Bruce Babbit, Chairman of the federal Data Committee, 21 May 1996)
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1. Introduction The goals and the problematic
1. Scientific informations are often dispersed and are generally not
easy to obtain
2. A Data Base gathers all useful information in only one place,
easily accessible to work and to analyse
3. Spatial, qualitative and quantitative management of the
application of groundwater exploration techniques
4. Finally to have a platform for retrieving questioning manipulating
and formatting data to be used in order to manage water system
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1. Introduction Spatial Modelling of information in 3 D
GIS, method to :
• view, and represent spatial data
• connect a map with his data base
• manage, analyse spatial data
Coupling of GIS and dynamic models in
environmental sciences
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1. Introduction
Data-processing architecture
2. Server of applications3. UniNE/SITEL
GISServices
4. Web
1. CORONA: Server of data
base
Web portal Central Data Node
PROJECTS
- GBIF Global Biodiversity Information Facility
- Switzerland
- Ajoie
Inventory
Data or Map on paper
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2. GIS : Geospatial Information System 2 approaches
• 1° Inventory and data management (for single view)– Inventory
– Data Compilation
– Data Management
– Database design
– Mapping
• 2° Advanced Spatial Data Models Analysis– Analysis and Geoprocessing
– Spatial modelling
– Link with geodynamic models
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2. GIS : 1st approach (Inventory visualization and web cartography)
Temporal data from rivers and see in canton Bern during the crue of 22-23 August 2005.
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2. GIS : 2nd approach (geoanalysis and dynamic modelling) Modelling of the Gamsen (Valais) aquifer under a deposit.
Localisation
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2. GIS : 2nd approach (geoanalysis and dynamic modelling)2. GIS : 2nd approach (geoanalysis and dynamic modelling)Modelling of the Gamsen (Valais) aquifer under a deposit.Modelling of the Gamsen (Valais) aquifer under a deposit.
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Temporal evolution of pollution for the second layer during 10 years. Results was made by calculation of
2 models connected.
2. GIS : 2nd approach (geoanalysis 2. GIS : 2nd approach (geoanalysis
and dynamic modelling)and dynamic modelling)
Modelling of the Gamsen (Valais) Modelling of the Gamsen (Valais)
aquifer under a depositaquifer under a deposit..
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Carte numérique des circulations souterraines en milieu karstique reconnue par essais de tracages en Ajoie (canton du Jura), Centre d'Hydrogéologie, Université de Neuchâtel, [Bouzelboudjen, Kimmeier & Gretillat, 1999]
3. My contribution : data base design, visualization and web3. My contribution : data base design, visualization and web cartographycartography :at regional scale
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This map is based on the hydrogeology map of Ajoie (1992)
3. My contribution : data base design, visualization and web3. My contribution : data base design, visualization and web cartographycartography :at national scale : Numeric map of karstic groundwater inNumeric map of karstic groundwater in AjoieAjoie
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Catchment area from the Saivu spring,
3. My contribution : data base design, visualization and web3. My contribution : data base design, visualization and web cartographycartography :at regional scale : zoom of Ajoie
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3. My contribution : data base design, visualization and web3. My contribution : data base design, visualization and web cartographycartography :at regional scale: Analysis of used tracing in Ajoie (JU)
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Conclusion and work in future
• These projects allow to develop a rigorous methodology in elaborating powerful tools for the management and the protection of groundwater. These tools give the possibilities and limits in integrating and interfacing the hydrogeological models and the GIS. In this way, the integration of new data in the GIS will ensure a control of the coherence of the groundwater flow system representation. All these informations can help in studying the natural evolution of the water system and the impact of the human activities through a really integrated approach.
• My objective is to integrate all data of Ajoie hydrogeological cartography in a geodatabase and submit this project to Office of Environment of Jura (combination between approach 1 and 2)
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BibliographyBöker E., Bouzelboudjen M., 2004.. Data base design coupled with a gis for water supply prospection in fissured aquifer Data base design coupled with a gis for water supply prospection in fissured aquifer media. media. 32nd International Geological Congress, Florence, August 20-28, 200432nd International Geological Congress, Florence, August 20-28, 2004
Böker E., 2003. Développement d’une base de données hydrogéologiques liée aux forages en milieu fissuré et analyse géospatiale par systèmes d’information géographique, 42p., 26 fig., Geomatic specialized certificate , University of Geneva (Switzerland).
Burrough P.A., McDonell R. A., 1998. Principles of Geographical Information Systems. Spatial Information Systems and Geostatistics. Oxford University Press, 333 p.
Bouzelboudjen M., Kimmeier F., 1998. GIS Vector and Raster Database, Advanced Geostatistics and 3-D Groundwater Flow Modelling in Strongly Heterogeneous Geologic Media : An Integrated Approach. The Eighteenth Annual Environmental Systems Research Institute Users Conference. San Diego, California, USA - 27-31 July 1998, 4p., 18 fig.
Gretillat P.-A., 1996. Aquifères karstiques et poreux de l’Ajoie. Eléments pour la carte hydrogéologique au 1:25’000. Thèse, Université de Neuchâtel.
Kimmeier F., Bouzelboudjen M., Ababou R., Ribeiro L., 2001. Travel path uncertainty : a case study combining stochastic and deterministic hydraulic models in the Rhône valley, Switzerland. 3rd International Conference on Future Groundwater Resources At Risk, Lisbon, Portugal, 9 fig., 1 ann., pp. 195-208.
• WEB SITES : WEB SITES : • 1. Global Biodiversity Information Facility Portal : 1. Global Biodiversity Information Facility Portal : http://www.gbif.ch• 2.Thesis :2.Thesis : http://sitelftp.unine.ch/Bouzelboudjen/Gretillat_PhD1996• 3. WEB GIS Ajoie: 3. WEB GIS Ajoie:
- - html mode- - Java mode
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