1. Intégration Sémantique de l'Information par des Communautés d'Intelligence en Ligne ISICIL

2. online communities emerge and build directories of references in their domains of interest at an impressive speed and with very agile responses to changes.

3. diversity and the mass of users are used to tackle the diversity and the mass of information sources

4. apply to watch and monitoring web 2.0 tools exhibit limits when automating tasks or controlling processes, as required in companies. structured information systems often suffer from usability and knowledge capture issues.

5. ISICIL reconcile viral new web applications with formal representations and processes integrate them into corporate practices for technological and scientific monitoring INRIA, I3S, UTT, ParisTech, Orange Labs, Peergrim, Ademe

6. ISICIL study and experiment the usage of new tools to assist corporate intelligence tasks rely on web 2.0 (blog, wiki, social bookmarking) for interactions rely on semantic web technologies for interoperability and information processing

7. integrate integrate lightweight representations like tags and formal representations like ontologies to get the best of both worlds

8. synchronize synchronize the life cycles of light representations and formal representations to enable mutual improvements

9. ease of use automation merge the ease of use of light representations and the automation capabilities offered by formal representations

10. ontology-based social graphs extend social network analysis to ontology-based social graphs inferences to detect and stimulate communities of interest

11. exchange fostering enrich exchange fostering functionalities using ontology-based representation and to exploit feedback from this usage

12. evolution of representations reify and exploit the evolution of representations and to use them in semi- automated functionalities to assist the life-cycles of communities

13. usable ensure that advanced web interfaces are not only nice but also usable and effective

14. trust and privacy models and tools for trust and privacy management in the context of open communities for information and knowledge sharing within organizations

15. social theory of knowledge contribute to a robust social theory of knowledge by identifying all factors

16. T3.1T0T0+06Platform technical warm-up: this task gathers the feasibility studies covering the core technical options for Task 2, Task 3 and Task 4 and their interactions. It includes the comparison of the technical and architectural options, (AJAX frameworks, JSF, JONAS, SOA, etc.) and the choice of architecture and framework of the overall project. T3.2T0T0+06State of the art on social network analysis techniques and identification of opportunities for ontology-based extensions:  identify families of existing graph algorithms for social network analysis;  identify opportunities of extensions using typed nodes and arcs;  identify extensions of inferences using ontologies gathering he types. T3.3T0+06T0+13Represent, annotate and make explicit uses and profiles with semantic web technologies: design an ontology-based a model of the users' profiles, users' usages and users' interactions. These models will integrate and start from existing contributions such as FOAF and SIOC. T3.4T0+13T0+32Bridge ontology-based reasoning and existing graph theory algorithms used in Social network analysis and propose new algorithms for ontology-based social network analysis.

17. T3.5T0T0+06State of the art on ontology & folksonomy hybrid techniques and identification of opportunities for new contributions. T3.6T0+06T0+13Propose new models, methods and interfaces for ontology & folksonomy hybrid solutions and in particular ergonomic tools for visualizing and reorganizing folksonomies. These models will integrate and start from existing contributions such as SKOS, MOAT and SCOT. T3.7T0+13T0+32Propose new algorithms for ontology & folksonomy hybrid reasoning, proposing some algorithms and advanced interfaces to support the life-cycle of these hybrids models mixing folksonomies and ontologies. T3.10T0+06T0+12Tagging server prototype: provides the core tagging functionalities to all other tools using tags:  tag creation and persistence;  tag models and representation;  tag searching / matching;  tag analysis, trend and history;  content tagging basic assistance.

18. T4.1T0+09T0+15Semantic Social Bookmark prototyping: services such as Del.icio.us suffer from several shortcomings with regards to our scenarios:  tags are terms used as such in indexing, searching and navigating; this task we look at improving social bookmarks with formal representation allowing new functionalities and interoperability with other tools; improvements include methods for tag suggestion and tag analysis.  the social structure of the bookmarkers can be represented formally and shared with other tools to span the whole scenario;  the organizational context of the scenario implies constraints on the tool (security, scope, etc.);  notification is underestimated in existing tools: when a bookmark is set many aspects of the bookmarked resources could be monitored to provide notification services; This prototype will propose assisting semantic bookmarking and monitoring of URL accessible resources. T4.2.aT0T0+06SweetWiki v2 design: through user feedback and experience with the first release of SweetWiki, a number of extensions are currently under consideration including:  Extend the underlying semantic models used by SweetWiki v1, e.g., for designing rights access management or complete versioning (both content and metadata);  Awareness features, such as notification that takes into account social network models designed and developed in Task 3;  Integration with other services such as social tagging and bookmarking services, designed in Task 4;  Turn SweetWiki into a front-end for semantic web applications development;  Improved search and navigation features using better reasoning algorithms that take into account social network models;  Improve different editors (page content editor, folksonomy/ontology editor);  Mashup/Ajax integration using semantic models. This task will evaluate the relevance of such proposed improvements, taking into account continuing feedback from users involved in the scenarios studied in Task 1. We will propose a prioritized list of extensions to be undertaken.

19. T4.2.bT0+06T0+32SweetWiki low level components and libraries: implementation of the low level components and libraries required by the extensions described above: implementation of key modules (editors, components, services) and libraries (e.g., for abstracting the use of semantic web technologies as well as a first test of orchestrations with external services such as the social tagging service and bookmarking service developed in Task 4). Following the agile cycle this task will also include the integration in the final architecture and continuous tests. T4.3T0+11T0+17Social Scraping prototyping: this is an entirely new application identified in analyzing the scenarios from the watchers. The idea is that bookmarking is sometime not enough: for important resources watcher scrap them / copy them internally to ensure their preservation. Thus there is a whole new opportunity for a social sharing of these scrapped resources with functionalities including:  tagging and notification just like bookmarks;  transclusion functionalities and provision of mash-up sources;  notification of source changes;  customization / reorganization of scrapped documents; This prototype will propose assisting semantic tagging, sharing and monitoring of resources that could be no longer URL-accessible. We foresee that these functionalities may merge with the wiki ones. T4.4T0+17T0+32Search tools: design the end-users' interfaces to transversally search the watchers' resources using Task 4 services integrating in particular:  bookmarks;  scrapped documents;  blogs;  wiki synthesis;  social network;