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Repositories COMP3016

Repositories COMP3016. Public, managed, web collections of knowledge. Repositories & Green OA. Open Archiving Initiative - October 1999 Agreed OAI-PMH for metadata sharing (2008 OAI-ORE for data exchange) Among the Participants Paul Ginsparg (arXiv) Carl Lagoze (NCSTRL)

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Repositories COMP3016

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  1. RepositoriesCOMP3016 Public, managed, web collections of knowledge

  2. Repositories & Green OA • Open Archiving Initiative - October 1999 • Agreed OAI-PMH for metadata sharing • (2008 OAI-ORE for data exchange) • Among the Participants • Paul Ginsparg (arXiv) • Carl Lagoze (NCSTRL) • Stevan Harnad (Cogprints) • EPrints • proposed as a ‘build your own repository’ solution • enable institutions and groups to participate in OAI metadata sharing initiative

  3. Example Repository http://eprints.ecs.soton.ac.uk/ A repository for a school of Electronics and Computer Science. It achieves 80-100% full text self-deposit

  4. Looking at the Differences between a Repository and a Website through a Whistlestop Tour of the ECS Repository • Repository provides: • Different views • Different ways of exporting data • Metadata capture

  5. EPrints Walkthrough: Browse • Browse Views aka “Collections” • Subdivisions • Ordering

  6. EPrints Walkthrough: Views • View content lists as “tag clouds” or “communities of practice”

  7. EPrints Walkthrough: Searches • Advanced search allows useful reports to be generated: • journal articles funded by NIH published in 2007 • conference posters with a PowerPoint file in the Maths department • refereed conference papers or journal articles with full text • old journal articles that haven’t been cited

  8. EPrints Walkthrough: Search Results

  9. EPrints Walkthrough: Exporting Search results • The output from any search can be exported… • as RSS feeds • as METS, Dublin Core or other DL interoperability formats • as BibTeX, refer, EndNote & other bibliography formats • to Google Earth, Similie TimeLine or other web services and mashups

  10. EPrints Walkthrough: Infrastructure Exports

  11. EPrints Walkthrough: Infrastructure Exports Publication lists and data imported by and branded by other research group portals.

  12. EPrints Walkthrough: Depositing a New Item

  13. EPrints Walkthrough: Import Items from Various Sources

  14. Reference Model for a Web Site • A web site is very simple in its functionality; a repository (as we have seen) is more complex REQUEST UPLOAD DOWNLOAD

  15. Reference Model for an Open Archival Information System (OAIS) • SIP/DIP/AIP = Submission/Dissemination/Archival Information Package

  16. What is a Repository? • A repository is a platform that allows you to capture items in any format – • text, • video, • audio, • data. • It distributes it over the web, mainly via Google • It indexes your work, so users can search and retrieve your items. • It preserves your digital work over the long term.

  17. What are the benefits of using a repository? • Some example benefits: • Getting your research results out quickly, to a worldwide audience • Reaching a worldwide audience through exposure to search engines such as Google • Storing reusable teaching materials that you can use with course management systems • Archiving and distributing material you would currently put on your personal website • Storing examples of students’ projects (with the students’ permission) • Showcasing students’ theses (again with permission) • Keeping track of your own publications/bibliography • Having a persistent network identifier for your work, that never changes or breaks • No more page charges for images. You can point to your images’ persistent identifiers in your published articles.

  18. What does a Repository look like? http://www.dspace.org/images/stories/dspace-diagram.pdf

  19. Application Architecture • Repository systems are organised into three tiers which consist of a number of components • Each layer only invokes the layer below it i.e. the application layer may not used the storage layer directly

  20. The Storage Layer • The storage layer is responsible for physical storage of metadata and content • Repositories use a relational databases to store all information about the organization of content, metadata about the content, information about e-people and authorization, and the state of currently-running workflows.

  21. The Business Logic Layer • The business logic layer deals with managing the content of the archive, users of the archive (e-people), authorization, and workflow

  22. The Application Layer • The application layer contains components that communicate with the world outside of the individual repository, for example the Web user interface and the Open Archives Initiative protocol for metadata harvesting service

  23. The Problem of LongTerm Data • Researchers have have hard disks which are just organised enough to support daily activity but researchers’ careers last for forty years • Disk crashes • Stolen laptops • Software upgrades that go wrong • Backups that never quite get restored • Draws and folders full of old stuff that eventually fall off the radar • “Lost in some research assistant’scomputer, the data are oftenirretrievable or an undecipherable string of digits” Lost in a Sea of Science Data.S.Carlson,The Chronicle of Higher Education (23/06/2006)

  24. Where Are My Files Now?

  25. Preservation, Persistence and Sustainability • Persistent URLs needed to last across many generations of organisation (e.g. CS Group, CSDept, Dept of ECS, School of ECS) • PURLs, DOIs or Handles • Or just persistent policies for URL naming! • Persistent storage / across many generations of hardware (e.g. desktop vs cloud) • Persistent readability / across many generations of software • Format migration • WordPerfect – Word 5.1 – Office 2007

  26. Open Archives Initiative Protocol for Metadata Harvesting (OAI-PMH) • A way of asking an archive about the stuff it’s got in it. • allows services to harvest metadata from many archives • Google harvests data, OAI-PMH harvests metadata • allows services to provide search and other functionality

  27. Harvester #1 (Psychology Service) 500 Cogprints 169 D-Space CogPrints (GNU EPrints) 1600 Records Harvester #3 (General Service) 230,000 arXiv 769 D-Space 264 OrgPrints 1600 CogPrints 150,162 “Improved” records from physics aggregator www.orgprints.org (GNU EPrints) 264 Records arXiv (custom software) 230,000 Records Harvester #2 (Physics Aggregator) 150,000 arXiv 162 D-Space D-Space @ MIT (D-Space Software) 769 Records

  28. Day 1 Harvester Give me everything! Archive Service A 1403 records 1403 records OK! (1403 records)

  29. Day 2 Give me all records which were added or changed since yesterday Harvester Archive Service A 1501 records 1403 records 1501 records OK! (102 new records, 4 deleted records, 23 changed records) 15 records Give me everything in set “physics” Archive Service B 123 records OK! (15 records)

  30. Day 3 Give me all records which were added or changed since yesterday Harvester Archive Service A 1490 records 1501 records 1490 records Give me everything in set “physics” which were added or changed since yesterday. OK! (25 new records, 36 deleted records, 3 changed records) 15 records Archive Service B 123 records OK! (0 new records, 1 record changed)

  31. Now, OAI-ORE (Object Exchange and Reuse) • Repositories are being filled with complex sets of data and metadata. • ORE is a protocols to allow repositories, agents, and services to use and reuse of compound digital objects beyond the boundaries of the holding repositories. • to facilitate discovery of objects, • to reference (link to) objects (and their parts), • to obtain a variety of disseminations of objects, • to aggregate and disaggregate objects, • to harvest and deposit (register, put) objects • to enable processing by automated agents

  32. ORE: Compound Information Objects • Identified, bounded aggregations of distinct information units that when combined form a logical whole • Scholarly publication with an article and supporting information including dataset, video, etc. • Digitized book with multiple chapters, each chapter containing multiple scanned pages. • Archaeological assemblies of images, maps, charts, and find lists • Flickr ‘sets’, comments/annotations etc.

  33. ORE: Publishing compound objects to the Web (1) • Web graph without any explicit compound objects • each information object identified with a URI • and there are links between them

  34. ORE: Publishing compound objects to the Web (2) • Compound object and its parts are published to the Web with URIs • Links indicate relationships but cannot show boundaries and true structure in a machine context

  35. ORE: Publishing compound objects to the Web (3) • This time … added layer is publishing the compound object and its parts with relationships and boundary as a ‘named graph’

  36. Summary • Repository adds management services to basic architectural model • ingest, dissemination • management • preservation

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