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Integrated Collaborative Information Systems

Integrated Collaborative Information Systems. Ahmet E. Topcu atopcu@cs.indiana.edu Advisor: Prof Dr. Geoffrey Fox. Outline. Introduction Motivation Research Issues Architecture Measurements and Analysis Conclusions Contributions. Introduction.

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Integrated Collaborative Information Systems

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  1. Integrated Collaborative Information Systems Ahmet E. Topcuatopcu@cs.indiana.edu Advisor: Prof Dr. Geoffrey Fox

  2. Outline • Introduction • Motivation • Research Issues • Architecture • Measurements and Analysis • Conclusions • Contributions

  3. Introduction • Efforts for collaboration and sharing between users and communities. • Grid • Virtual Organizations • Sakai • Collaboration and Learning Environment for Education • Web 2.0 • Represents new web-based services. • Provides rich and lightweight online tools • Provides reusable services and data • Updates software and data often very rapidly • Provides interactive user interfaces • Provides an architecture for easy user contribution

  4. Web 2.0 Examples • Blogs (blogger.com, GoogleBlog) • Wikis(Wikipedia, WikiWikiWeb) • Social Networking Tools(MySpace ,LinkedIn) • Social Bookmarking Tools(del.icio.us ,YouTube) • Domain of scientific research (CiteULike , Connotea , and Bibsonomy) • Domain specific academic search tools(CiteSeer, Google Scholar, Windows Live Academic)

  5. Motivation • Numerous annotation and search tools. Each of them has different capability and not completed defined metadata • Need for exploiting large set of data sources from various tools • Integration of major annotation and search tools in order to use them having additional functionalities for scientific research • Utilize the best capabilities of the tools

  6. Motivation II • Necessities for integration • Need for common data format • No easy way to find all publications • Example: A search in Google Scholar for the publications of our research lab (Community Grids Lab) will return only about 20% of the total CGL publications. • Wealth of information contained in numerous field remains largely outside the scope of tools • What happens if tool you choose is not adopted or worse just disappears

  7. Research Issues • Integration • Building a model to • integrate community tools and adding value to existing systems • natural collection of related documents easily • support more metadata • support tagging • Scalability • Investigate system behavior for increased message rate per second • Flexibility and Extensibility • Easy to add and remove service mechanism • Easy of integrating annotation and search tools

  8. Architecture Principles • Community-centric platform of services • Integration of dynamic publication, search tools into Cyberinfrastructure based scholarly research. • Integration such scientific research defining metadata and using various URL, and map them. • Services that aggregate information from a variety of sources (i.e., “mash-up” tools) and provide added value to communities of researchers • Do not build a new tagging and search systems. Reuse the tools and adding value to them • Easier to link together all relating information common Digital Entity (DE)

  9. Integrated Collaborative Information Systems (ICIS) Architecture

  10. Integrated Collaborative Information Systems (ICIS) Architecture Components • Tools external web tools to provide services to clients • Integration Manager have information service and provide communication between tools, client, and responsible for integration operation in the system • Filter operates two-way data filtering • Permission Handler checks existing Digital Entity (DE)s permission or build a new permission token for new DEs • Data Manager provides a mechanism to extract data from a repository and insert data into a repository • Storage maintains user data and permissions in the database.

  11. Summary: Architecture • Build integration architecture • We do not reinvent existing tools • Use existing features of tools • Supports tagging services • Provides common metadata • Allows to use consistent data • Provides common resolution of filters • Supports authorization of users

  12. Use Case: Collection of Metadata from web pages • Collect • Digital Entities in web pages using HTTP methods. • Analyze • Using heuristic methodology to extract metadata fields of the Digital Entities for publications • Build • RSS objects using collected Digital Entities. • New tags using collected Digital Entities. • Compare • Collected Digital Entities from web pages with the existing Digital Entities in ICIS repository. • If they are: • different: Store new Digital Entities in ICIS repository. • same:Option to update tags and other fields. • Share • New Digital Entities with other tools using ICIS repository.

  13. Security Model • Security in web 2.0 can be limited. • We implemented a simple but more powerful security model around local tools that wrap Web 2.0 systems. • We used an access-control matrix model to provide security for our information system • Supports multiple groups and multiple users for each Digital Entity (DE). • Similar to UNIX file system • The Unix RWX bits corresponds to Read, Write, and Execute operation for each file and directory. • In our system, DE correspond to the file element and folder corresponds to the directory element. • For each DE and folder, there are three types of access rights defined in the systems: Read, Write, and Delete.

  14. Security Model II • We have a security model that supports • Level of Authorization • Roles are defined as Super Administrator (SA) and Group Administrator (GA), User (U) • The system allows having more than one SA. • An existing SA can add other SAs to the system. • SA can assign any U to become GA, and remove GA from group. • Each group should at least one GA. GA add/remove U from group • U can allow other U and groups to share their resources • User profile • Share user profile between sites.

  15. Benchmarks and Environments • Message rate scalability investigation • Search operation • Using Database Access • Using Memory Utilization • Test environments • Apache Axis version 1.2 • Apache Tomcat Server version 5.0.28 • Java 2 Runtime Environment, Standard Edition (build 1.5.0_12-b04) • The maximum heap size of Java Virtual Machine(JVM) is 1024 MB

  16. Integrated Collaboration Information System(ICIS) Framework • Search local repository using database access with increasing Message rate

  17. Message rate scalability result (Search using Database)

  18. Integrated Collaboration Information System(ICIS) Framework II • Search local repository using memory with increasing Message rate

  19. Message rate scalability result (Search using Memory Utilization)

  20. Contribution • System Research • Providing architecture and model for integration of collaborative systems • Integration and interoperability of annotation, search tools, and web search tools • Collaboration of the users sharing resources. • Increasing performance and scalability using memory utilization • Providing flexibility allowing integration of different tools having common metadata. • Easy to add and extend service mechanism • Supports authorization and event based mechanism • System Software • An ICIS Infrastructure of Internet Documentation and Integration of Metadata (IDIOM) systems

  21. Thanks! Questions?

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