Abstract
For the first time the impact of different ranking parameters on one and the same experimentally achieved set of 610 journals is studied. Significance of the three journal ranking parameters Selective Journal Productivity, Selective Impact, and Collectivity is established. Significant parameters cause strong re-ranking in journal rank distributions and, in the transition between individual and collective parameters, also in the shape of the comulated curves. No parameter can replace an other one, each carries essential information on the communication process. The author's concept is open for more parameters and pronounces the role of man in decision making. The connection between simple behavioral principles and scientometrics is emphasized. The holography principle and the maximum speed principle are claimed to be most promising.
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M. J. MORAVCSIK, Life in a multidimensional world,Scientometrics, 6 (1984) 75–86.
J. D. FRAME, Multidimensionality is alive and well in applied statistics,Scientometrics, 6 (1984) 97–102.
P. VINKLER, An attempt of surveying and classifying bibliometric indicators for scientometric purposes,Scientometrics, 13 (1988) 239–259.
A. SCHUBERT, W. GLÄNZEL, Mean response time—a new indicator of journal citation speed with application to physics journals,Czechoslovak Journal Physics, B36 (1986) No.1, 121–125.
I. N. SENGUPTA, Three new paramentes in bibliometric research and their application to rerank periodicals in the field of biochemistry,Scientometrics, 10 (1986) 235–242.
M. BONITZ, Journal ranking by Selective Impact. New method based on SDI results and journal impact factors,Scientometrics, 7 (1985) 471–485.
M. BONITZ, Journal ranking by different parameters. Part I. Collectivity and Selective Collectivity: two ranking parameters reflecting the structure of a journals' network,Scientometrics, (preceding paper).
N. PRAVDIČ, V. OLUIČ-VUKOVIČ. Dual approach to multiple authorship in the study of collaboration/scientific output relationship,Scientometrics, 19 (1986) 259–280.
E. GARFIELD, The Mystery of the Transposed Journals List — wherein Bradford's Law of Scattering is Generalized According to Garfield's Law of Concentration,Current Contents, (1971) No. 31, 5–6.
L. I. MOLOTKOV, A. V. BATURIN, Metod issledovaniya okhvata bazami dannykh shurnalnykh publikatsii na osnove formirovaniya tematicheskikh grupp shurnalov,Probl. informatsionnykh sistem, (1986) No. 3, 15–38.
L. EGGHE, R. ROUSSEAU, Reflections on a deflection: a note on different causes of the Groos droop,Scientometrics, 14 (1988) 493–511.
YE-SHO CHEN, F. F. LEIMKUHLER, Bradford's law: an index approach,Scientometrics, 11 (1987) 183–198.
L. EGGHE, On the 80/20 rule,Scientometrics, 10 (1986) 55–68.
M. BONITZ, Can there be found simple principles governing human behavior in the system of scientific communication? In: System Desing. Proc. IFIP TC9/WG 9.1 Conference on “System Design for Human Development and Productivity: Participation and Beyond”. Berlin, GDR, 12–15 May, 1986. K. FUCHS-KITTOWSKI, D. GERTENBACH (Eds), Berlin: Akademie der Wissenschaften, 1987, p. 63–68.
M. BONITS, Holographie- und Tempoprinzip: Verhaltensprinzipien im System der wissenschaftlichen Kommunikation,Informatik, 33 (1986) 191–193.
M. BONITZ, Nauchnaya informatsiya i nauchnoe povedenie. Chapter 11 in:Nauchnoe issledovanie i nauchnaya informatsiya, Moscow; Nauka publishers 1987, p. 121–135.
A. SCHUBERT, private communication 1987.
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Bonitz, M. Journal ranking by different parameters. Part II. Individual or collective: Which parameters are best suited for journal ranking?. Scientometrics 18, 75–93 (1990). https://doi.org/10.1007/BF02019163
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DOI: https://doi.org/10.1007/BF02019163