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Internet search engines: Fluctuations in document accessibility

Internet search engines: Fluctuations in document accessibility. Wouter Mettrop CWI, Amsterdam, The Netherlands Paul Nieuwenhuysen Vrije Universiteit Brussel, and Universitaire Instelling Antwerpen, Belgium http://www.cwi.nl/cwi/projects/IRT

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Internet search engines: Fluctuations in document accessibility

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  1. Internet search engines: Fluctuations in document accessibility • Wouter Mettrop CWI, Amsterdam, The Netherlands • Paul Nieuwenhuysen Vrije Universiteit Brussel, and Universitaire Instelling Antwerpen, Belgium http://www.cwi.nl/cwi/projects/IRT Presented at NOM 2000New York Hilton May 16-18, 2000

  2. WWW: growing number of WWW servers WWW

  3. Internet based information sources: how many? how much? In 2000: • about 1 billion = 1000 million unique URLs in the total Internet • about 10 terabyte (= 10 000 gigabyte) of text data

  4. Internet information retrieval systems in 2000 • Several types of systems exist to retrieve information: • Directories of selected sources categorised by subject, made by humans, mainly for browsing. • Search systems, based on databases with machine made indexes, for word-based searching! • “Meta-search” or “multi-threaded” search systems. • We have studied and compared several well-known international (and a few national) word-based Internet search engines.

  5. Internet information retrieval systems: evaluation criteria • Many aspects/criteria can be considered in the evaluation of an Internet search engine, including • coverage of documents present on WWW (studies exist); • number of elements of a document, that are indexed to make them usable for retrieval = “depth of indexing”;… • We started to study the depth of indexing and we were soon confronted with the fluctuations in the performance that do exist. • We think that these fluctations are another important aspect of performance.

  6. Internet information retrieval systems: our research group The following persons have been involved in the research: • Louise Beijer (Hogeschool van Amsterdam, The Netherlands) • Hans de Bruin (Unilever Research Laboratorium, Vlaardingen, The Netherlands) • Hans de Man (JdM Documentaire Informatie, Vlaardingen, The Netherlands) • Rudy Dokter (PNO Consultants, Hengelo, The Netherlands) • Marten Hofstede ( Rijksuniversiteit Leiden, The Netherlands) • Wouter Mettrop (CWI, Amsterdam, The Netherlands) • Paul Nieuwenhuysen (Vrije Universiteit Brussel, Belgium) • Eric Sieverts (Hogeschool van Amsterdam, and RUU, The Netherlands) • Hanneke Smulders (Infomare, Terneuzen, The Netherlands) • Hans van der Laan (Consultant, Leiderdorp, The Netherlands) • Ditmer Weertman (ADLIB, Utrecht, The Netherlands)

  7. Internet search engines: research on indexing functionality • Our method to assess the indexing functionality of search engines: • A “rich” test document with many element types has been created • Identical test documents were placed at 8 sites in 2 countries • A procedure was set up to assess retrieval • in an automatic way • with regular intervals

  8. Number of our test documents that were retrieved

  9. Internet search engines : reachability • 14 528 queries were sent to 13 search engines. • Search engines were 721 times unreachable. • The percentage of unreachability varies from nearly 0% to nearly 15%. • The studied search engines were reachable for 95% of the queries.

  10. title tag META-tags: keywords, description and author comment tag ALT tag text/URL of a link to a document H3 tag table header text of: an internal link, a reference anchor, a link to a sound file name of a sound file (au/wav/aiff/ra) text of a link to an image name of an image file (gif or jpg; inline or linked to) name of a Java applet (with or without extension class) terms after the first 100 lines in a document (200/…/700) the URL of a document Internet search engines: elements of test document studied

  11. Number of the studied document elements that were indexed

  12. Search engine indexing functionality: conclusions • Considerable differences among search engines exist in their depth of indexing! • Not “all of the static web” is indexed. • Not each of our test documents/pages. • Not all HTML elements of our test document/page. • Some of the studied search engines showed changes in the indexing policy during the experiment fluctuations…

  13. Internet search engines: fluctuations - definition • A fluctuation appears when the result set of an observation - i.e. • one query or • set of queries misses documents with respect to a frame of reference - i.e. • other observations and • knowledge about Web reality

  14. Internet search engines: detecting fluctuations • Through time: comparing result sets of 1 observation repeatedly performed • Observation = one query or set of queries • Frame of reference = other observations & web-knowledge • One moment: consistency of result sets • Observation = one query in set of queries • Frame of reference = other observations

  15. Internet search engines: types of fluctuations • Through time: comparing result sets of 1 observation repeatedly performed • “Document fluctuations” • “Indexing fluctuations” • One moment: consistency of result sets • “Element fluctuations”

  16. A B C

  17. Document fluctuations: example 1

  18. Document fluctuations: example 2

  19. Document fluctuations: experimental results

  20. Indexing fluctuations:experimental results

  21. A1 A2 A1 A2 A1 A2 A3 A4 A3 A4 A3 A4

  22. Element fluctuations: example

  23. Element fluctuations: experimental results

  24. Percentage of documents missed due to fluctuations

  25. Fluctuations: remarks on “correctness” • Fluctuations can be seen as “correct”, if they are reflections of alterations in: • (web-) reality • then document, indexing and element fluctuations are incorrect • the indexed database of a search engine • then only element fluctuations are incorrect • Users do not care; they miss documents

  26. Fluctuations:remarks on “size” • No relation document / element fluctuations < ===== > “size” • Percentage missed documents determines (with other reducing effects, such as depth of indexing) the effective size of an engine

  27. Fluctuations:remarks on “importance” • Users of information • should be aware of the existence of fluctuations • should observe them systematically • Providers of information • should be aware of the existence of fluctuations • Quantitative analyses of the web are hindered by fluctuations • scientometrics; citation analysis • fluctuations lower the effective size of an index

  28. Internet search engines: conclusions of our research • Search engines differ in depth of indexing documents. • Search engines make mistakes: • They are subject to changes in indexing policy.(“indexing fluctuations”) • They forget documents completely (“document fluctuations”) • They miss documents in their result sets (“element fluctuations”). • Considerable differences exist among search engines regarding these fluctuations.

  29. Internet search engines: recommendations related to fluctuations • Fluctuations are “normal”; do not be surprised; do not worry. • Do not try to find a simple explanation to fully understand what happens. • Known item searchers should repeat the search • when using an engine with many element fluctuations; use other search terms; • when using an engine with many document fluctuations: repeat later.

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