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1 William Y. Arms September 26, 2002 A Research Program for Information Science with the NSDL as an Example.

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Presentation on theme: "1 William Y. Arms September 26, 2002 A Research Program for Information Science with the NSDL as an Example."— Presentation transcript:

1 1 William Y. Arms September 26, 2002 A Research Program for Information Science with the NSDL as an Example

2 2 A Scenario A faculty member wished to find a paper for students to read in a class. He began by asking an expert. She suggested the original research paper as suitable. Later, he typed a few terms into Google, browsed the hits, selected one that led to ResearchIndex, found the paper, and downloaded a PDF version from the author's web site.

3 3 Computer Science Internet Web Google ResearchIndex PDF Computer Science

4 4 HCI Browsing Searching User interface design Human Computer Interaction Computer Science

5 5 HCI: Eye Tracking

6 6 Roles of expert/instructor/student Cognitive psychology Linguistics Natural language processing Cognitive Studies HCI Cognitive Studies Computer Science

7 7

8 8 Organizational change Economics Ethics Social culture Law Society Cognitive Studies HCI Society Computer Science

9 9 Society Cognitive Studies HCI Computer Science Applications Information Science

10 10 Open Access to Scientific, Scholarly and Professional Information

11 11 Before the Web Access to scientific, medical, legal information In the United States: excellent if you belonged to a rich organization (e.g, a major university) very poor otherwise In many countries of the world: very poor for everybody

12 12 Some Light Reading William Y. Arms, "Economic models for open-access publishing." iMP, March 2000. http://www.cisp.org/imp/march_2000/03_00arms.htm William Y. Arms, "Automated digital libraries." D-Lib Magazine, July/August 2000. http://www.dlib.org/dlib/july20/07contents.html William Y. Arms, "What are the alternatives to peer review? Quality control in scholarly publishing on the web." Journal of Electronic Publishing, 8(1), August 2002. http://www.press.umich.edu/jep/08-01/arms.html

13 13 Research Libraries are Expensive library materials buildings & facilities staff

14 14 Baumol's Cost Disease Year Price 1900 19502000 Bundle of goods and services Labor-intensive services Manufactured goods 2050

15 15 Baumol's Cost Disease Year Price 1900 19502000 Bundle of goods and services Labor-intensive services Manufactured goods 2050 Moore's Law

16 16 Brute Force Computing Few people really understand Moore's Law Computing power doubles every 18 months Increases 100 times in 10 years Increases 10,000 times in 20 years Simple algorithms plus immense computing power can outperform human intelligence

17 17 Example: Catalogs and Indexes Cost disease: catalogs and indexes Catalog, index and abstracting records are very expensive when created by skilled professionals Moore's Law: automatic indexing of full text Retrieval effectiveness using automatic indexing can be at least as effective as manual indexing with controlled vocabularies (Cleverdon 1967, reporting on experiments by Salton)

18 18 Resistance to Change "I used to be a heavy user of INSPEC. Now I use Google instead."

19 19 Information Discovery: 1992 and 2002 19922002 Contentprintdigital Computingexpensiveinexpensive Choice of contentselectivecomprehensive Index creationhumanautomatic Frequencyone timemonthly Vocabularycontrollednot controlled Query Booleanranked retrieval Userstraineduntrained

20 20 Brute Force Computing: Substitutes for Human Intelligence Automated algorithms for information discovery Similarity of two documents Vector space and statistical methods (Salton, Sparc Jones, et al.) Importance of digital object Rank importance of web pages by analysis of the graph of web links (Kleinberg, Page, et al.)

21 21 Brute Force Computing: Automated Metadata Extraction Informedia (Carnegie Mellon) Automatic processing of segments of video, e.g., television news. Algorithms for: dividing raw video into discrete items generating short summaries indexing the sound track using speech recognition recognizing faces (Wactlar, et al.)

22 22

23 23 Simple algorithms plus immense computing power plus the intelligence of the user can replace labor-intensive services Cognitive Studies HCI Low Cost Information Computer Science

24 24 The National Science Digital Library (NSDL)

25 25 Scope All digital information relevant to any level of education in any branch of science. Scientific and technical information Materials used in education Materials tailored to education

26 26 All branches of science, all levels of education, very broadly defined: Five year targets 1,000,000 different users 10,000,000 digital objects 10,000 to 100,000 independent sites How Big might the NSDL be?

27 27 Resources Integration team Budget $4-6 million Staff 25 - 30 Management Diffuse How can a small team, without direct management control, create a very large-scale digital library?

28 28 It is possible to build a very large digital library with a small staff. But... Every aspect of the library must be planned with scalability in mind. Some compromises will be made. Philosophy

29 29 Basic Assumptions The integration team will not manage any collections The integration team will not create any metadata

30 30... to provide a coherent set of collections and services across great diversity The Integration Task...

31 31 Interoperability The Problem Conventional approaches require partners to support agreements (technical, content, and business) But NSDL needs thousands of very different partners... most of whom are not directly part of the NSDL program The challenge is to create incentives for independent digital libraries to adopt agreements

32 32 Function Versus Cost of Acceptance Function Cost of acceptance Many adopters Few adopters

33 33 Example: Textual Mark-up Function Cost of acceptance SGML ASCII HTML XML

34 34 The Spectrum of Interoperability LevelAgreementsExample FederationStrict use of standardsAACR, MARC (syntax, semantic, Z 39.50 and business) HarvestingDigital libraries exposeOpen Archives metadata; simplemetadata harvesting protocol and registry GatheringDigital libraries do not Web crawlers cooperate; services mustand search engines seek out information

35 35 What to Index? Full text indexing is excellent, but full text indexing is not possible for all materials (non-textual, no access for indexing). Comprehensive metadata is an alternative, but available for very few of the materials. What Architecture to Use? Few collections support an established search protocol (e.g., Z39.50). Searching

36 36 Broadcast Searching does not Scale User interface server User Collections

37 37 Users Collections Metadata repository The Metadata Repository Services The metadata repository is a resource for service providers. It holds information about every collection and item known to the NSDL.

38 38 Search Architecture Portal Search and Discovery Services Collections SDLIP OAI http Metadata repository James Allan, Bruce Croft (University of Massachusetts, Amherst)

39 39 Other Topics User interfaces: data driven portals using a channel architecture Selection: selective web crawling, machine learning Quality measures: ???

40 40 The Mortal behind the Portal [This space left intentionally blank.]

41 41 The NSDL is a program of the National Science Foundation's Directorate for Education and Human Resources, Division of Undergraduate Education. The NSDL Core Integration is a collaboration between the University Center for Atmospheric Research (Dave Fulker), Columbia University (Kate Wittenberg) and Cornell University (Bill Arms). The Technical Director is Carl Lagoze (Cornell University). Acknowledgement

42 42 Society Cognitive Studies HCI Computer Science Applications Information Science


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