Part of ARGO PANTES A Division of the Argo Manunggal Group ARGO WORKWEAR Single Source Solution.
WEB publishing of Argo float data from Black Sea A. Stefanov , A. Palazov, V. Slabakova, E.Peneva
description
Transcript of WEB publishing of Argo float data from Black Sea A. Stefanov , A. Palazov, V. Slabakova, E.Peneva
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
WEB publishing of Argo float data from Black SeaA. Stefanov, A. Palazov, V. Slabakova, E.Peneva
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
About BulARGO projectAbout BulARGO project
Funded by:Bulgarian National Science Fund to the Ministry of Education, Youth and Science, which aims to establish a national research infrastructure in the frame of Euro-Argo activities.
The partners:Bulgarian Institute of Oceanology – BASSofia University "St. Kliment Ohridski“National Institute of Meteorology and Hydrology - BAS.
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Why do we need Black Sea Argo Program ?
• Lack of regular observations of the marine environmental parameters has hindered the development and validation of regional basin- scale models;
• Climate system monitoring and climate change detection need long-term data records;
• Marine industry (shipping, fishery, tourism) needs marine products;
• Safety at sea (search and rescue, oil spills) needs real time data and forecasts
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
BulARGO Goals:
• To develop national research infrastructure as a Bulgarian component of the Euro-Argo network;
• To deploy and make operational an array of 5 floats during the 3 years of the BulARGO project execution (3 floats in the beginning of 2011 and 2 more in 2012)
• To increase Black Sea in-situ data sources and to improve quality of local in-situ products and forecasts;
• To promote international collaboration towards establishment of a Black Sea Argo program;
• To demonstrate utility of Argo floats in the Black Sea to the stakeholders and user community.
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
BulArgo Floats SpecificationsBulArgo Floats Specifications
Local ID WMO Telecom Model Cycle
Park depth
Profiling depth CTD Othersensors
Shabla 6900803 ARGOS APEX 5 days 750 m 1500 m Seabird 41 -
Emona 6900804 ARGOS APEX 5 days 750 m 1500 m Seabird 41 Anderaa 3830
Galata 6900805 ARGOS APEX 5 days 750 m 1500 m Seabird 41 -
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
BulARGOBulARGO Sampling Cycle CharacteristicSampling Cycle Characteristic:
Surface
750 dB
15000 dB
Descent (4h)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
Drift at 750 (4,4 days)
Ascent (4h) T/S
Argos transmission (8h)
Descent (4h)
Drift at 750 (4,1 days)
Descent (4h)
Argos transmission (8h)
Ascent (7h) T/S
BulARGOBulARGO Sampling Cycle CharacteristicSampling Cycle Characteristic:
Surface
750 dB
15000 dB
Descent (4h)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
Drift at 750 (4,4 days)
Ascent (4h) T/S
Argos transmission (8h)
Descent (4h)
Drift at 750 (4,1 days)
Descent (4h)
Argos transmission (8h)
Ascent (7h) T/S
Surface
750 dB
15000 dB
Descent (4h)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
Drift at 750 (4,4 days)
Ascent (4h) T/S
Argos transmission (8h)
Descent (4h)
Drift at 750 (4,1 days)
Descent (4h)
Argos transmission (8h)
Ascent (7h) T/S
Surface
750 dB
15000 dB
Descent (4h)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
Drift at 750 (4,4 days)
Ascent (4h) T/S
Argos transmission (8h)
Descent (4h)
Drift at 750 (4,1 days)
Descent (4h)
Argos transmission (8h)
Descent (4h)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
0 day 1 day 2 day 3 day 4 day 5 day 6 day 7 day 8 day 9 day 10 day
FULL DIVE CYCLE ( shallow) FULL DIVE CYCLE (deep)
Drift at 750 (4,4 days)
Ascent (4h) T/S
Argos transmission (8h)
Descent (4h)
Drift at 750 (4,1 days)
Descent (4h)
Argos transmission (8h)
Ascent (7h) T/S
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Why do we need local DMS for BUL Argo Program ?
The Coriolis data center is a GLOBAL data assembly center (DAC) for French and Europeans Argo floats. The real time QC automatic procedures are applied daily by the CORIOLIS data center.
The role of LOCAL BulArgo data centre is to:• Collect, control and distribute argo float data for operational
oceanography between all partners;• Apply specific methods for the qualification of floats in delayed mode;• Dissemination of argo data through SeaDataNet infrastructure.
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Win2008 (IIS)MSSql2008Esri Arc Info, ArcGis server 9.2Reporting Services :
Standard Software
• Uses network-based model of web services. • Allow access, download and manage usage data with a convenient ID and
password. • Reports may be “broadcast” to a subscribers during off-hours;• Display graphic representations of the data• View data at various levels of detail, such as in summary tabular form or in
graphics views; • Download data in a variety of formats, including HTML, or export to a
spreadsheet according the SEADATANET ODV standard for reporting oceanographic data.
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Data Base Server
Clients
GISDATABASE
ArcGisServer
WEB publishing – standard approach
Main steps
• Create map application
• Create service based on map application and corresponding web application on ARGIS Server
• Load periodically Argo float data in map application
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Report Server
Data Base Server (s)
Clients
GeneralDATABASE
GISDATABASE
ArcGisServer
WEB publishing – combined approach
Main steps
• Create map application
• Create service based on map application and corresponding web application on ARGIS Server
• Modification the code behind map object identification tool to build the query against general data base using Report server
• Load periodically only trajectory of argo float data as layers in GIS data base
• Load other argo float data in general data base
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
The advantages of such an approach are:
• Avoid restrictions concerning building relationship classes with between spatial data and other attribute data in GIS database.
• There are no needs to transfer all attribute information to GIS database;
• End user may have simultaneous access to both data from a GIS server and data from the general RDBMS;
• Publishing GIS data to the Web does not change existing data workflow – how the data is created, maintained, and used by desktop applications.
• Possibilities to replace of ARGIS Server with Google services
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
The advantages of such an approach are:
• Avoid restrictions concerning building relationship classes with between spatial data and other attribute data in GIS database.
• There are no needs to transfer all attribute information to GIS database;
• End user may have simultaneous access to both data from a GIS server and data from the general RDBMS;
• Publishing GIS data to the Web does not change existing data workflow – how the data is created, maintained, and used by desktop applications.
• Possibilities to replace of ARGIS Server with Google services
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
The next step
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Report Server
Data Base Server (s)
Clients
GeneralDATABASE
GISDATABASE
Google mapsServer
WEB publishing – combined approach
Main steps
• Create map application
• Load periodically only trajectory of Argo float data as layers in GIS data base
• Load other Argo float data in general data base
• Export map as KML file
• Run a script to modify KML file with links to Report Server
• upload KML to Google server
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
CONCLUSIONS
• WEB centric DMS ensure flexible and operative infrastructure for publishing argo float data and information exchange between data providers and end users;
• Combined approach allow the user to have simultaneous access to both data from a GIS server and data from the general RDBMS.
• Viewing data with Google tools provide additional flexibility.
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
HOW TO GET ARGO DATA:
1. CORIOLIS DATA CENTER http://www.coriolis.eu.org/Data-Services-Products floats № 6900803, 6900804, 6900803, 1901200 2. BUL_ARGO on BGODC http://www.gisserver.io-bas.bg/Web_argo/ 3. BULARGO on Google http://g.co/maps/9zh3z
To enter Report ServerUser: argoPassword:argo
3rd Bi-annual BS Scientific Conference and UP-GRADE BS-SCENE Project Joint ConferenceOdessa, Ukraine , 31st October - 4th November 2011
BULGARIAN ACADEMY OF SCIENCESINSTITUTE OF OCEANOLOGY
Thank you for your attention