CODATA 2010 Cape Town : Différence entre versions
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+ | {{CODATA header}} | ||
{{Infobox sémantique manifestation | {{Infobox sémantique manifestation | ||
| Titre=CODATA 2010 Cape Town | | Titre=CODATA 2010 Cape Town | ||
+ | | Logo=Codata2010logo.png | ||
| Séries=Conférence CODATA | | Séries=Conférence CODATA | ||
| Date de début=Oct 24 2010 | | Date de début=Oct 24 2010 | ||
Ligne 8 : | Ligne 10 : | ||
| Ville = Le Cap | | Ville = Le Cap | ||
| Pays=Afrique du Sud | | Pays=Afrique du Sud | ||
− | | Site= | + | | Site=www.codata2010.com/ |
| Label site=www.codata2010.com | | Label site=www.codata2010.com | ||
}} | }} | ||
+ | <center> | ||
+ | 22nd [[CODATA]] International Conference, 24-27th October 2010, Cape Town - South Africa | ||
− | + | "'''Scientific Information for Society: Scientific Data and Sustainable Development'''" | |
+ | |||
+ | '''<big>Information scientifique pour la société : données scientifiques et développement durable</big>''' | ||
+ | </center> | ||
+ | |||
+ | ==Sujets abordés par la conférence== | ||
+ | ;Les données de la science pour le développement durable: | ||
+ | * Information society and innovations | ||
+ | * Data sources, criteria, and models for sustainable development | ||
+ | * New directions in international scientific data coordination: the role of ICSU and its interdisciplinary bodies | ||
+ | * Building a community of data scientists: promise and pitfalls | ||
+ | * Preservation of and access to scientific & technical data in developing countries | ||
+ | * International social science data archives: models, policies, & principles | ||
+ | * External threats to freedom of access | ||
+ | * Crossing the digital divide: recent progress in improving data management in the developing world | ||
+ | * Role and operation of data centers and data services in the future | ||
+ | * Panel on issues and concerns of data-oriented young scientists and curricula in data management and informatics | ||
+ | ;e-Science and e-Science Networks: | ||
+ | * International multi-disciplinary large data projects for science and education and for business applications; Global scientific data sharing and application | ||
+ | * Regional and global e-science and cyberinfrastructure developments | ||
+ | * Grid infrastructure and standards for resource sharing across networks and institutions | ||
+ | * Advanced cluster computing algorithms for data processing in computational fluid dynamics, structural crash analysis, MEMS design, financial modeling, factory scheduling, etc. | ||
+ | * Advanced distributed data processing methods for science and engineering applications | ||
+ | ;Infoscience and Computational informatics: | ||
+ | * Theory, models and methods relating to distributed data processing and archiving | ||
+ | * New approaches to data transfer, storage and processing | ||
+ | * Long-term data stewardship and digital preservation: institutional approaches and technical concerns | ||
+ | * Data ICT and applications | ||
+ | * Role of data for promoting public understanding of science | ||
+ | * Preserving and digitizing legacy data | ||
+ | |||
+ | ;Data Mining/Knowledge Management: | ||
+ | |||
+ | * Enhancing the transformation of data to knowledge | ||
+ | * Artificial Intelligence applications in science - based decision-making | ||
+ | * Developing community databases: lessons from biodiversity, geochemistry, neurology, health, and other disciplines | ||
+ | * Data security in information and communication systems | ||
+ | |||
+ | ;interoperability and Data Integration: | ||
+ | |||
+ | * Interoperability of heterogeneous data systems on materials, environments, human sciences and other fields | ||
+ | * Development of open access, data commons, information commons and open culture: building links between regional, disciplinary, and interdisciplinary initiatives | ||
+ | * Addressing linguistic barriers to scientific data integration and application | ||
+ | * Data assimilation approaches and the role of interoperability standards in modeling and simulation applications | ||
+ | * Human science integration and its synthetic research methodology | ||
+ | * New frontiers in human science data integration | ||
+ | |||
+ | ;Earth and Environmental Data: | ||
+ | |||
+ | * Sensor webs and networks for real-time monitoring and analysis | ||
+ | * The emerging global earth observing system of systems: technical and policy issues | ||
+ | * Implementing geospatial data infrastructures: progress at local, national and global levels as well as in geoscience data management | ||
+ | * Polar Year data policy and management | ||
+ | * Strategy for IPY data management based on the scientific questions formulated in the IPY 2007-2008 Science Plan | ||
+ | * Special needs of the social sciences, the Education, Outreach and Communications Plan, and the general public | ||
+ | * Organizational data flow structure (including procedures of access, transmission and archival of data ) | ||
+ | * Progress and problems in geoscience data management for the I*Ys | ||
+ | * Role of data in climate change mitigation and adaptation | ||
+ | |||
+ | ;Biological Science, Medical and Health Data: | ||
− | + | * Bioinformatics; Proteome Database; Genetic Data Issues | |
+ | * Biodiversity; Observation and Specimen Records (Access to Biological Collection Data) | ||
+ | * Risks Data for safety (disasters, illnesses, etc.) | ||
+ | * Measuring people and their health: scientific and ethical issues | ||
+ | * Organizing disaster and health risk in support of disaster management | ||
+ | |||
+ | ;Physical Science Data: | ||
+ | |||
+ | * The Fundamental Constants: cross-disciplinary coordination and standards issues | ||
+ | * Materials science data and their multidisciplinary applications | ||
+ | * Gas Hydrates | ||
+ | * Informatics in energy resource management | ||
+ | * Managing Astronomical Data : Lessons learned in their development | ||
+ | |||
+ | ==Comité de programme== | ||
+ | * [[a pour membre du comité de programme::Jan Brase]], [[Allemagne]] ; | ||
+ | * [[a pour membre du comité de programme::Robert Chen]], [[États-Unis]] ; | ||
+ | * [[a pour membre du comité de programme::Marcelle Gaune-Escard]], [[France]] ; | ||
+ | * [[a pour membre du comité de programme::Takashi Gojobori]], [[Japon]] ; | ||
+ | * [[a pour membre du comité de programme::Sara Graves]], [[États-Unis]] ; | ||
+ | * [[a pour membre du comité de programme::Guo Huadong]], [[République populaire de Chine|Chine]] ; | ||
+ | * [[a pour membre du comité de programme::Fedor Kuznetsov]], [[Russie]] ; | ||
+ | * [[a pour membre du comité de programme::Krishan Lal]], [[Inde]] ; | ||
+ | * [[a pour membre du comité de programme::Brian McMahon]], [[Royaume-Uni]] ; | ||
+ | * [[a pour membre du comité de programme::Moses Mensah]], [[Ghana]] ; | ||
+ | * [[a pour membre du comité de programme::Glen Newton]], [[Canada]] ; | ||
+ | * [[a pour membre du comité de programme::Ray Norris]], [[Australie]] ; | ||
+ | * [[a pour membre du comité de programme::Antoni Nowakowski]], [[Pologne]] ; | ||
+ | * [[a pour membre du comité de programme::Steve Rossouw]], [[Afrique du Sud]] ; | ||
+ | * [[a pour membre du comité de programme::Michel Sabourin]], [[Canada]] ; | ||
+ | * [[a pour membre du comité de programme::Bob Scholes]], [[Afrique du Sud]] ; | ||
+ | * [[a pour membre du comité de programme::Gordon H. Wood]], [[Canada]] ; | ||
+ | * [[a pour membre du comité de programme::Mikhail Zgurovsky]], [[Ukraine]]. |
Version actuelle datée du 27 septembre 2010 à 18:34
Committee on Data for Science and Technology Comité de données pour la science et la technologie |
CODATA 2010 Cape Town | |
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CODATA 2010 Cape Town
| |
Début : | Oct 24 2010 |
Fin : | Oct 27 2010 |
Site : | www.codata2010.com |
Ville : | Le Cap |
Pays : | Afrique du Sud |
Dates importantes | |
Date limite soumissions : | 9 June 2010 |
Notification : | 14 May 2010 |
Évènement en série : Conférence CODATA
|
22nd CODATA International Conference, 24-27th October 2010, Cape Town - South Africa
"Scientific Information for Society: Scientific Data and Sustainable Development"
Information scientifique pour la société : données scientifiques et développement durable
Sujets abordés par la conférence
- Les données de la science pour le développement durable
- Information society and innovations
- Data sources, criteria, and models for sustainable development
- New directions in international scientific data coordination: the role of ICSU and its interdisciplinary bodies
- Building a community of data scientists: promise and pitfalls
- Preservation of and access to scientific & technical data in developing countries
- International social science data archives: models, policies, & principles
- External threats to freedom of access
- Crossing the digital divide: recent progress in improving data management in the developing world
- Role and operation of data centers and data services in the future
- Panel on issues and concerns of data-oriented young scientists and curricula in data management and informatics
- e-Science and e-Science Networks
- International multi-disciplinary large data projects for science and education and for business applications; Global scientific data sharing and application
- Regional and global e-science and cyberinfrastructure developments
- Grid infrastructure and standards for resource sharing across networks and institutions
- Advanced cluster computing algorithms for data processing in computational fluid dynamics, structural crash analysis, MEMS design, financial modeling, factory scheduling, etc.
- Advanced distributed data processing methods for science and engineering applications
- Infoscience and Computational informatics
- Theory, models and methods relating to distributed data processing and archiving
- New approaches to data transfer, storage and processing
- Long-term data stewardship and digital preservation: institutional approaches and technical concerns
- Data ICT and applications
- Role of data for promoting public understanding of science
- Preserving and digitizing legacy data
- Data Mining/Knowledge Management
- Enhancing the transformation of data to knowledge
- Artificial Intelligence applications in science - based decision-making
- Developing community databases: lessons from biodiversity, geochemistry, neurology, health, and other disciplines
- Data security in information and communication systems
- interoperability and Data Integration
- Interoperability of heterogeneous data systems on materials, environments, human sciences and other fields
- Development of open access, data commons, information commons and open culture: building links between regional, disciplinary, and interdisciplinary initiatives
- Addressing linguistic barriers to scientific data integration and application
- Data assimilation approaches and the role of interoperability standards in modeling and simulation applications
- Human science integration and its synthetic research methodology
- New frontiers in human science data integration
- Earth and Environmental Data
- Sensor webs and networks for real-time monitoring and analysis
- The emerging global earth observing system of systems: technical and policy issues
- Implementing geospatial data infrastructures: progress at local, national and global levels as well as in geoscience data management
- Polar Year data policy and management
- Strategy for IPY data management based on the scientific questions formulated in the IPY 2007-2008 Science Plan
- Special needs of the social sciences, the Education, Outreach and Communications Plan, and the general public
- Organizational data flow structure (including procedures of access, transmission and archival of data )
- Progress and problems in geoscience data management for the I*Ys
- Role of data in climate change mitigation and adaptation
- Biological Science, Medical and Health Data
- Bioinformatics; Proteome Database; Genetic Data Issues
- Biodiversity; Observation and Specimen Records (Access to Biological Collection Data)
- Risks Data for safety (disasters, illnesses, etc.)
- Measuring people and their health: scientific and ethical issues
- Organizing disaster and health risk in support of disaster management
- Physical Science Data
- The Fundamental Constants: cross-disciplinary coordination and standards issues
- Materials science data and their multidisciplinary applications
- Gas Hydrates
- Informatics in energy resource management
- Managing Astronomical Data : Lessons learned in their development
Comité de programme
- Jan Brase, Allemagne ;
- Robert Chen, États-Unis ;
- Marcelle Gaune-Escard, France ;
- Takashi Gojobori, Japon ;
- Sara Graves, États-Unis ;
- Guo Huadong, Chine ;
- Fedor Kuznetsov, Russie ;
- Krishan Lal, Inde ;
- Brian McMahon, Royaume-Uni ;
- Moses Mensah, Ghana ;
- Glen Newton, Canada ;
- Ray Norris, Australie ;
- Antoni Nowakowski, Pologne ;
- Steve Rossouw, Afrique du Sud ;
- Michel Sabourin, Canada ;
- Bob Scholes, Afrique du Sud ;
- Gordon H. Wood, Canada ;
- Mikhail Zgurovsky, Ukraine.