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Abstract

In a letter to Robert Hooke in 1675, Isaac Newton made his most famous statement: “If I have seen further it is by standing on the shoulders of Giants”. This statement is now often used to symbolize scientific progress.Robert Merton examined the origin of this metaphor in his On the Shoulders of Giants(Merton, 1965). The shoulders-of-giants metaphor can be traced to the French philosopher Bernard of Chartres, who said that we are like dwarfs on the shoulders of giants, so that we can see more than they, and things at a greater distance, not by virtue of any sharpness of sight on our part, or any physical distinction, but because we are carried high and raised up by their giant size.

Keywords

Citation Analysis Patent Analysis Invisible College Citation Context Pathfinder Network 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Boyack, KW, Wylie, BN, Davidson, GS, and Johnson, DK (2000). Analysis of Patent Databases using Vxinsight (SAND2000-2266C). Albuquerque, NM: Sandia National Laboratories. http:// www.cs.sandia.gov/projects/VxInsight/pubs/npivm00.pdfGoogle Scholar
  2. Braam, RR, Moed, HF, and Raan, AFJ van (1991a). Mapping of science by combined co-citation and word analysis. I: Structural aspects. Journal of the American Society for Information Science, 42(4),233–51.CrossRefGoogle Scholar
  3. Braam, RR, Moed, HF, and Raan, AFJ van (1991b). Mapping of science by combined co-citation and word analysis. II: Dynamical aspects. Journal of the American Society for Information Science,42(4), 252–66.CrossRefGoogle Scholar
  4. Bush, V (1945). As we may think. Atlantic Monthly, 176(1), 101–8.Google Scholar
  5. Callon, M, Courtial, JP, Turner, WA, and Bauin, S (1983). From translations to problematic networks-an introduction to co-word analysis. Social Science Information Sur Les Sciences Sociales, 22(2),191–235.CrossRefGoogle Scholar
  6. Callon, M, Law, J, and Rip, A (eds) (1986). Mapping the Dynamics of Science and Technology:Sociology of Science in the Real World. London: Macmillan.Google Scholar
  7. Chen, C (1997). Structuring and visualising the WWW with generalised similarity analysis.Proceedings of the 8th ACM Conference on Hypertext (Hypertext ’97), April 1997, Southampton,UK, pp. 177–86.Google Scholar
  8. Chen, C (1998). Generalised similarity analysis and Pathfinder network scaling. Interacting with Computers, 10(2), 107–28.CrossRefGoogle Scholar
  9. Chen, C, and Paul, RJ (2001). Visualizing a knowledge domain’s intellectual structure. Computer,34(3), 65–71.CrossRefGoogle Scholar
  10. Crane, D (1972). Invisible Colleges: Diffusion of Knowledge in Scientific Communities. Chicago, IL:University of Chicago Press.Google Scholar
  11. Cronin, B (1984). The Citation Process: The Role and Significance of Citations in Scientific Communication. London: Taylor Graham.Google Scholar
  12. Edge, D (1979). Quantitative measures of communication in science: a critical overview. History of Science, 17, 102–34.Google Scholar
  13. Garfield, E (1955). Citation indexes for science: a new dimension in documentation through association of ideas. Science, 122, 108–11.CrossRefGoogle Scholar
  14. Garfield, E (1975). The “obliteration phenomenon” in science and the advantage of being obliterated! Current Contents, 51/52, 5–7.Google Scholar
  15. Garfield, E (1996). When to cite. Library Quarterly, 66(4), 449–58.CrossRefGoogle Scholar
  16. Garfield, E (1998). On the shoulders of giants. Proceedings of the Conference on the History and Heritage of Science Information Systems, 24 October 1998, Pittsburgh, PA, USA.Google Scholar
  17. Garfield, E (1998). Mapping the World of Science. Paper presented at the 150 Anniversary Meeting of the AAAS, Philadelphia, PA. February 14, 1998. http://165.123.33.33/eugene_garfield/papers/mapsciworld.htmlGoogle Scholar
  18. Garfield, E, and Small, H (1989). Identifying the changing frontiers of science [WWW]. The S. Neaman Press. http://www.garfield.library.upenn.edu/papers/362/362.html (retrieved 26 June 2000).Google Scholar
  19. Garfield, E, Sher, I, and Torpie, RJ (1964). The Use of Citation Data in Writing the History of Science.Philadelphia, PA, Institute for Scientific Information.Google Scholar
  20. Garfield, E, Malin, MV, and Small, H (1978). Citation data as science indicators. In: Y Elkana (ed.),Toward a Metric of Science. New York: Wiley.Google Scholar
  21. King, J (1987). A review of bibliometric and other science indicators and their role in research evaluation. Journal of Information Science, 13(5), 261–76.CrossRefGoogle Scholar
  22. Knorr-Cetina, KD (1999). Epistemic Cultures: How the Sciences Make Knowledge. Cambridge, Mass.:Harvard University Press.Google Scholar
  23. Koenig, M, and Harrell, T (1995). Lotka’s law, Price’s urn, and electronic publishing. Journal of the American Society for Information Science, 46(5), 386–8.CrossRefGoogle Scholar
  24. Kuhn, TS (1962). The Structure of Scientific Revolutions. Chicago, IL: University of Chicago Press.Google Scholar
  25. Lawrence, S (2001). Online or invisible? Nature, 411(6837), 521.CrossRefGoogle Scholar
  26. Leydesdorff, L, and Wouters, P (2000). Between texts and contexts: advances in theories of citation.http://www.chem.uva.nl/sts/loet/citation/rejoin.htm (retrieved 26 June 2000).Google Scholar
  27. Lin, X (1997). Map displays for information retrieval. Journal of the American Society for Information Science, 48(1), 40–54.CrossRefGoogle Scholar
  28. Lotka, AJ (1926). The frequency distribution of scientific productivity. Journal of the Washington Academy of Sciences, 16 (June), 317–23.Google Scholar
  29. McCain, KW (1990). Mapping authors in intellectual space: a technical review. Journal of the American Society for Information Science, 41(6), 433–43.CrossRefGoogle Scholar
  30. Merton, RK (1965). On the Shoulders of Giants: A Shandean Postscript. Chicago, IL: University of Chicago Press.Google Scholar
  31. Merton, RK (1968). The Mathew Effect in science. Science, 159(3810), 56–63.CrossRefGoogle Scholar
  32. Mullins, N, Snizek, W, and Oehler, K (1988). The structural analysis of a scientific paper. In:AFJ van Raan (ed.), Handbook of Quantitative Studies of Science and Technology. Amsterdam:Elsevier, pp. 85–101.Google Scholar
  33. Noyons, ECM, and Raan, AFJ van (1998). Monitoring scientific developments from a dynamic perspective: self-organized structuring to map neural network research. Journal of the American Society for Information Science, 49(1), 68–81.Google Scholar
  34. Persson, O (2000). A bibliometric view of Scientometrics (1978–1999) [WWW]. http://www.umu.se/inforsk/scientometrics/ (retrieved 26 June 2000).Google Scholar
  35. Price, D (1976). A general theory of bibliometric and other cumulative advantage processes. Journal of the American Society for Information Science, 27, 292–306.CrossRefGoogle Scholar
  36. Price, DD (1961). Science since Babylon. New Haven: Yale University Press.Google Scholar
  37. Price, DD (1965). Networks of scientific papers. Science, 149, 510–15.CrossRefGoogle Scholar
  38. Sher, I, and Garfield, E (1966). New tools for improving and evaluating the effectiveness of research.Proceedings of Research Program Effectiveness, 27–29 July 1965, Washington, DC, USA, pp. 135–46.Google Scholar
  39. Small, H (1973). Co-citation in scientific literature: a new measure of the relationship between publications. Journal of the American Society for Information Science, 24, 265–9.CrossRefGoogle Scholar
  40. Small, H (1977). A co-citation model of a scientific specialty: a longitudinal study of collagen research.Social Studies of Science, 7, 139–66.CrossRefGoogle Scholar
  41. Small, H (1986). The synthesis of specialty narratives from co-citation clusters. Journal of the American Society for Information Science, 37(3), 97–110.Google Scholar
  42. Small, H (1994). A SCI-MAP case study: building a map of AIDS research. Scientometrics, 30(1),229–41.CrossRefGoogle Scholar
  43. Small, H (1999a). On the shoulders of giants. Bulletin of the American Society for Information Science,25(2). http://www.asis.org/Bulletin/Jan-99/small.htmlGoogle Scholar
  44. Small, H (1999b). Visualizing science by citation mapping. Journal of the American Society for Information Science, 50(9), 799–813.CrossRefGoogle Scholar
  45. Small, H, and Greenlee, E (1980). Citation context analysis and the structure of paradigms. Journal of Documentation, 36(Sept), 183–96.CrossRefGoogle Scholar
  46. Small, HG, and Griffith, BC (1974). The structure of scientific literatures I: Identifying and graphing specialties. Science Studies, 4, 17–40.CrossRefGoogle Scholar
  47. Small, HS (1988). Book review of Callon et al. Scientometrics, 14(1–2), 165–8.CrossRefGoogle Scholar
  48. Steinberg, SG (1994). The ontogeny of RISC. Intertek, 3(5), 1–10.MathSciNetzbMATHGoogle Scholar
  49. White, HD, and Griffith, BC (1981). Author co-citation: a literature measure of intellectual structure.Journal of the American Society for Information Science, 32, 163–72.CrossRefGoogle Scholar
  50. White, HD, and McCain, KW (1998). Visualizing a discipline: an author co-citation analysis of information science, 1972–1995. Journal of the American Society for Information Science, 49(4),327–56.Google Scholar
  51. White, HD, and McCain, KW (2000). In memory of Belver C. Griffith. Journal of the American Society for Information Science, 51(10), 959–62.CrossRefGoogle Scholar
  52. Wise, JA, Thomas, JJ, Pennock, K, Lantrip, D, Pottier, M, Schur, A, and Crow, V (1995). Visualizing the non-visual: spatial analysis and interaction with information from text documents.Proceedings of IEEE Symposium on Information Visualization ’95, 30–31 October 1995, Atlanta,GA, USA, pp. 51–8.Google Scholar

Copyright information

© Springer-Verlag London Limited 2003

Authors and Affiliations

  • Chaomei Chen
    • 1
  1. 1.College of Information Science and TechnologyDrexel UniversityPhiladelphiaUSA

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