Journal ranking
Journal ranking is widely used in academic circles in the evaluation of an academic journal's impact and quality. Journal rankings are intended to reflect the place of a journal within its field, the relative difficulty of being published in that journal, and the prestige associated with it. They have been introduced as official research evaluation tools in several countries.
Measures
Traditionally, journal ranking “measures” or evaluations have been provided simply through institutional lists established by academic leaders or through committee vote. These approaches have been notoriously politicized and inaccurate reflections of actual prestige and quality, as they would often reflect the biases and personal career objectives of those involved in ranking the journals; also causing the problem of highly disparate evaluations across institutions.[1][2] Consequently, many institutions have required external sources of evaluation of journal quality. The traditional approach here has been through surveys of leading academics in a given field, but this approach too has potential for bias, though not as profound as that seen with institution-generated lists[3] Consequently, governments, institutions, and leaders in scientometric research have turned to a litany of observed bibliometric measures on the journal-level that can be used as surrogates for quality and thus eliminate the need for subjective assessment[4]
Consequently, several journal-level metrics have been proposed, most citation-based:
- Impact factor – Reflecting the average number of citations to articles published in science and social science journals.
- Eigenfactor – A rating of the total importance of a scientific journal according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals.
- SCImago Journal Rank – A measure of scientific influence of scholarly journals that accounts for both the number of citations received by a journal and the importance or prestige of the journals where such citations come from.
- h-index – Usually used as a measure of scientific productivity and the scientific impact of an individual scientist, but can also be used to rank journals.
- Expert survey – A score reflecting the overall quality and/or contribution of a journal is based on the results of the survey of active field researchers, practitioners and students (i.e., actual journal contributors and/or readers), who rank each journal based on specific criteria.[5]
- Publication power approach (PPA) – The ranking position of each journal is based on the actual publishing behavior of leading tenured academics over an extended time period. As such, the journal’s ranking position reflects the frequency at which these scholars published their articles in this journal.[6][7]
- Altmetrics – Rate journals based on scholarly references added to academic social media sites.[8]
- diamScore – A measure of scientific influence of academic journals based on recursive citation weighting and the pairwise comparisons between journals.[9]
- Source normalized impact per paper (SNIP) – a factor released in 2012 by Elsevier based on Scopus to estimate impact.[10] The measure is calculated as SNIP=RIP/(R/M), where RIP=raw impact per paper, R = citation potential and M = median database citation potential.[11]
PageRank algorithm
In 1976 a recursive impact factor that gives citations from journals with high impact greater weight than citations from low-impact journals was proposed.[12] Such a recursive impact factor resembles Google's PageRank algorithm, though the original Pinski and Narin paper uses a "trade balance" approach in which journals score highest when they are often cited but rarely cite other journals; several scholars have proposed related approaches.[13][14][15] In 2006, Johan Bollen, Marko A. Rodriguez, and Herbert Van de Sompel also proposed replacing impact factors with the PageRank algorithm.[16]
The Eigenfactor is another PageRank-type measure of journal influence,[17] with rankings freely available online, along with SCImago.[18]
JRank
JournalsRanking (JRank) is the digital portal developed by iMaQ Technologies Pvt. Ltd in 2015 containing list of all international journals indexed in ISI-JCR and Scopus-SJR based on the current impact factor (IF) and Quartiles (Q) given by thomsan reuter and Scopus, respectively. The JRank also gives detailed information about the journal such as country of journal publishing, impact factor history, frequency of journal publishing, active web link etc. All lists of journals based on subjects can also be viewed using JRank portal[19]
National rankings
Several national and international journals exist, e.g.:
- ERA Australia journal lists[20]
- Brazil's Qualis
- Colombia's Publindex
- Denmark[21]
- Norwegian Scientific Index[22]
- DHET List of Approved South African Journals
- The Chartered Association of Business Schools' Academic Journal Guide[23]
- List of HEC-Pakistan Recognized Journals[24]
- Indian National Academy of Agricultural Sciences[25]
They have been introduced as official research evaluation tools in several countries.[26]
See also
References
- ^ Lowry, Paul Benjamin; Moody, Gregory D.; Gaskin, James; Galletta, Dennis F.; Humpherys, Sean; Barlow, Jordan B.; and Wilson, David W. (2013). Evaluating journal quality and the Association for Information Systems (AIS) Senior Scholars’ journal basket via bibliometric measures: Do expert journal assessments add value?,” MIS Quarterly (MISQ), vol. 37(4), 993–1012. Also, see YouTube video narrative of this paper at: http://www.youtube.com/watch?v=LZQIDkA-ke0&feature=youtu.be.
- ^ Lowry, Paul Benjamin; Romans, Denton; and Curtis, Aaron (2004). "Global journal prestige and supporting disciplines: A scientometric study of information systems journals," Journal of the Association for Information Systems (JAIS), vol. 5(2), pp. 29–80 (http://aisel.aisnet.org/amcis2005/276)
- ^ Lowry, Paul Benjamin; Romans, Denton; and Curtis, Aaron (2004). "Global journal prestige and supporting disciplines: A scientometric study of information systems journals," Journal of the Association for Information Systems (JAIS), vol. 5(2), pp. 29–80 (http://aisel.aisnet.org/amcis2005/276)
- ^ Lowry, Paul Benjamin; Moody, Gregory D.; Gaskin, James; Galletta, Dennis F.; Humpherys, Sean; Barlow, Jordan B.; and Wilson, David W. (2013). “Evaluating journal quality and the Association for Information Systems (AIS) Senior Scholars’ journal basket via bibliometric measures: Do expert journal assessments add value?,” MIS Quarterly (MISQ), vol. 37(4), 993–1012. Also, see YouTube video narrative of this paper at: http://www.youtube.com/watch?v=LZQIDkA-ke0&feature=youtu.be.
- ^ Serenko A., Dohan M. , "Comparing the expert survey and citation impact journal ranking methods: Example from the field of Artificial Intelligence", Journal of Informetrics, 5(4), 629-648, 2011
- ^ Holsapple, C.W., " A Publication Power Approach for identifying premier information systems journals", Journal of the American Society for Information Science and Technology, 59(2), 166-185, 2008
- ^ Serenko, A., Jiao, C., "Investigating information systems research in Canada", Canadian Journal of Administrative Sciences, 29(1), 3-24, 2012
- ^ Alhoori, Hamed; Furuta, Richard (2013). "Can Social Reference Management Systems Predict a Ranking of Scholarly Venues?" (PDF). Research and Advanced Technology for Digital Libraries. Lecture Notes in Computer Science. 8092: 138–143. doi:10.1007/978-3-642-40501-3_14. ISBN 978-3-642-40500-6.
- ^ Cornillier, F., Charles, V., "Measuring the attractiveness of academic journals: A direct influence aggregation model", Operations Research Letters, 43(2), 172–176, 2015
- ^ "Elsevier Announces Enhanced Journal Metrics SNIP and SJR Now Available in Scopus". Press release. Elsevier. Retrieved 2014-07-27.
- ^ Moed, Henk (2010). "Measuring contextual citation impact of scientific journals". Journal of Informetrics. 4 (3): 256–27 7. doi:10.1016/j.joi.2010.01.002.
- ^ Gabriel Pinski; Francis Narin (1976). "Citation influence for journal aggregates of scientific publications: Theory with application to literature of physics". Information Processing & Management. 12 (5): 297–312. doi:10.1016/0306-4573(76)90048-0.
- ^ S. J. Liebowitz; J. P. Palmer. (1984). "Assessing the relative impacts of economics journals" (PDF). Journal of Economic Literature. 22 (1). American Economic Association: 77–88. JSTOR 2725228.
- ^ I. Palacios-Huerta; O. Volij (2004). "The Measurement of Intellectual Influence". Econometrica. 72 (3): 963–977. doi:10.1111/j.1468-0262.2004.00519.x.
- ^ Y. K. Kodrzycki; P. D. Yu (2006). "New Approaches to Ranking Economics Journals". B. E. Journal of Economics Analysis and Policy. 5 (1). doi:10.2202/1538-0645.1520.
- ^ Johan Bollen, Marko A. Rodriguez, and Herbert Van de Sompel.; Rodriguez; Van De Sompel (December 2006). "Journal Status". Scientometrics. 69 (3): 1030. arXiv:cs.GL/0601030. Bibcode:2006cs........1030B. doi:10.1145/1255175.1255273. ISBN 9781595936448.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ C. T. Bergstrom. (May 2007). "Eigenfactor: Measuring the value and prestige of scholarly journals". College & Research Libraries News. 68 (5).
- ^ Jevin D. West. "eigenfactor.org". eigenfactor.org. Retrieved 2014-05-18.
- ^ List of ISI and Scopus Indexed Journals (2015)"[1]"
- ^ Australian Research Council ranking of journals worldwide
- ^ Danish Ministry of Higher Education and Science (2014)"[2]"
- ^ Norwegian ranking of journals worldwide
- ^ [3]
- ^ HEC Recognized Journals
- ^ NAAS Journal Scoring
- ^ Pontille D., Torny D. , "The controversial policies of journal ratings: evaluating social sciences and humanities", Research Evaluation, 19(5), 347-360, 2010