what's in the research librarian's tool shed?
DESCRIPTION
Presents an overview of the basic tools, indicators and skills used to support researchers in evaluating, managing and improving their research performance.TRANSCRIPT
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What’s in the research librarian’s tool shed? 26 Aug 2014
Lucia Schoombee
Customer Consultant – Research Intelligence
Elsevier
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Contents
1. Introduction
2. Nuts and bolts
3. High power tools
4. Hammer
5. Comprehensive, automatedtools
6. New gadgets
7. Skill & know how
8. Safety & Caution
2
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Introduction• Researchers = “simplify things and help us to be less busy”
• Evidence of productivity and impact
• Needed for: performance appraisal, promotion, funding applications, rating and to include in curriculum vitae
• Profusion of indicators and tools
• All tools provide quantitative means of articulating a researchers productivity and impact
• NB! Supplementary to peer-review
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Nuts and bolts• Publication counts
• Mostly books, articles, book chapters & conference proceedings.
• “Work not published is work not done”
• Citations
• Broadly, a citation is a reference to a published or unpublished source (not always the original source).
• Attributes scientific work and gives credit to the original source of an idea, theory or concept.
• Citation analysis = Measuring the impact of an author, or a publication, by counting the number of times that author or publication has been cited by other works
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Indicators• Indicator is a composite numeric
symbol/expression that indicates the state or level of something
• The nuts and bolts – publication counts and citations are used to produce indicators of research performance
• Most common indicators used in science: h-index, g-index, m-index, impact factor
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h-index• Developed by Prof Jorge Hirsch
in 2005
• The h-index is an equationbased on the number of publications and the number of citations per
• publication
• h-index is now recognized as an industry standard that gives information about the performance of Researchers and Research Areas that is very useful in some situations
Prof Jorge Hirsch invented h-index in 2005
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h-index formula• A scientist has an h-index 9 if
his top 9 most-cited publications have each received at least 9 citations; it is 13 if an entity’s top 13 most-cited publications have each received at least 13 citations; and so on
[A scientist has index h if h of his/her Np papers have at least h citations each, and the other (Np − h) papers have no more than h citations each]
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From the horse’s mouth
Prof Dermott Diamond, National Centre for Sensor Research, Dublin City University talks about Bibliometrics for the individual
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45°
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Advantages of h-index• Combines quantity (publications) and impact (citations).
• Objective measure of performance
• Insensitive to low cited papers
• Better than other single-number criteria: Impact factor, total number of documents, total number of citations, citation per paper rate and number of highly cited papers
• Easy to obtain
• Easy to understand
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Limitations of h-index• Publication and citation patterns vary between disciplines
• Not time sensitive
• Highly cited papers are not reflected in the h-index
• Easy to obtain, risk of indiscriminate use and over-reliance
• May change behaviour of scientists (self-citations)
• There are also technical limitations:• Difficulty to obtain the complete output of scientists • Deciding whether self-citations should be removed or
not
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g-index
[Given a set of articles] ranked in decreasing order of the number of citations that they received, the g-index is the (unique) largest number such that the top g articles received (together) at least g2 citations
Source: https://who.rocq.inria.fr/Jean-Charles.Gilbert/publications/indices.jpg
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g-index calculation
Source: Costas, R., & Bordons, M. (2008). Is g-index better than h-index? An exploratory study at the individual level. Scientometrics, 77(2), 267-288.
Method/calculation: Rank by decreasing order the citations of all the documents of the unit. The position where the square of the rank position is equal to the accumulated number of citations corresponds to the g-index
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m-index• The h-index depends on the duration of each scientist’s
career because the pool of publications and citations increases over time.
• In order to compare scientists at different stages of their career, Hirsch presented the “m parameter”, which is the result of dividing h by the scientific age of a scientist (number of years since the author’s first publication)
• The m-index is defined as h/n, where n is the number of years since the first published paper of the scientist
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Comparing h-, g- and m-indices
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High power tools• Most comprehensive and robust
sources of publication and citation data are citation indexes
• E.g.• Scopus• Web of Science• Google Scholar
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Scopus at a glance• The largest abstract and citation database of peer-reviewed
research literature from around the world. Belongs to Elsevier.
• More than 21,900 titles from more than 5,000 international publishers and 105 different countries
• Over 54 million records, 23 million patents from 5 patent offices worldwide
• All content is evaluated by an independent, 15-person, international board of experts called the Content Selection and Advisory Board (CSAB)
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Content
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What content does Scopus include?
CONFERENCES
17k events5.5M records (10%)
Conf. expansion:1,000 conferences6,000 conf. events400k conf. papers5M citations
Mainly Engineering and Physical Sciences
BOOKS
421 book series- 28K Volumes- 925K items
29,917 books- 311K items
Books expansion:75K books by 2015- Focus on Social Sciences and A&H
PATENTS
24M patents from 5 major patent offices
JOURNALS
21,912 peer-reviewed journals367 trade journals
- Full metadata, abstracts and cited references (pre-1996)- >2,800 fully Open Access titles- Going back to 1823- Funding data from acknowledgements
Physical Sciences6,600
Health Sciences6,300
SocialSciences6,350
LifeSciences4,050
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References• 33 million date back to
1996, incl. 85% references
• 21 million date back to 1823, no references
• 3 million records added per year
• (5,500 records added per day)
33M21M
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Scopus Author search
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Scopus Author Identifier
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Scopus Citation Overview
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Scopus Author Evaluator
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Web of Science• ~12,000 Journal titles
• Databases:• Science Citation Index Expanded (1900-present)• Social Sciences Citation Index (1900-present)• Arts & Humanities Citation Index (1975-present)• Book Citation Index (2005-present)• Conference Proceedings Citation Index (1993-present)
• 54 million records - 3,300 publishers - “100 years of abstracts”
• 6.5 million conference records - 760 million+ cited references
• Updated weekly - Since 1955
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Google Scholar Citations
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Google Scholar Citations
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Google Scholar Limitations• Evasive about exactly which resources it indexes
• Update schedule unknown
• Definition of “scholarly” includes grey literature, including article preprints, conference proceedings, and other materials not peer-reviewed.
• BUT Google Scholar is “freely” available and easy to use
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Hammer• Journal Impact Factor
• Widely used journal metric, most notorious
• Represents the impact a journal has in relation to other journals in a specific field
• Measures the frequency with which the average article in a journal has been cited in particular year
• Despite criticism, widely used to articulate an authors reputation
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Comprehensive, automated tools• Multi-dimensional, flexible and efficient features to handle
complex queries, simulations and is able to compare entities.
• E.g. SciVal & Incites
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SciVal in a nutshell
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SciVal offers access to the research performance of 220 countries and 4,600 research institutions worldwide, and groups of institutions
Visualize research performance
Benchmark your progress
Develop collaborative partnerships
Ready-made- at a glance snapshots of any selected entity
Flexibility to create and compare any research groups
Identify and analyze existing and potential collaboration opportunities
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The layers of SciVal
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• Scopus data only • 1996 onwards• Weekly update
Query around 75 trillion metric values
Using advanced data analytics super-computer technology, SciVal allows you to instantly process an enormous amount of data to generate powerful data visualizations on-demand, in seconds.
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SciVal
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SciVal
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Gadgets• One often also finds new and unopened gadgets which
seem great but is difficult to figure out. Altmetrics fall into this category, showing a lot of promise, but not yet being quite understood and trusted.
• Variety of research outputs: datasets, software, posters, slides, videos, websites and articles
• Impact is measured by: number of tweets, bookmarks, Likes on Facebook, blog posts, media mentions, etc.
• Altmetrics tracks how many times the outputs have been viewed, downloaded, cited, reused/adapted, shared, bookmarked, or commented upon
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Altmetrics tools
A few examples of the rapidly growing number of new tools for measuring the impacts of these kinds of research outputs include:
• Altmetric analyses articles and datasets
• ImpactStory analyses articles, datasets, blog posts, software, etc.
• Topsy an index of the public social web
• Slideshare analyses videos, presentations, slides and documents posted to its website
• Plum Analytics and CitedIn
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Using Altmetrics.com• Go to http://www.altmetric.com/
• Librarians & researchers - Request a free trial account of the Explorer using the form at the bottom of the page
• Go to Product > Explorer and Sign in
• Pick an article by keyword, journal, etc.
• N.B. Altmetrics is an article-based metric
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Altmetric donut
• Badge can be embedded• Add “altmetric it” to browser toolbar
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Altmetrics in Scopus• Appears in sidebar of Scopus articles
• Only when there is data available for the article being viewed
• E.g. Priem, J., Groth, P., & Taraborelli, D. (2011). The altmetrics collection. PloS one, 7(11), e48753-e48753
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Impactstory• Go to www.impactstory.org
• Create a profile
• Impactstory collects your products from slideshare, ORCID, Figshare, Githup
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Skill and know-how• Ale Ebrahim, Nader, et al. "Effective strategies for increasing citation
frequency." International Education Studies 6.11 (2013): 93-99
• Visibility is the key to higher citations
• This paper, by reviewing the relevant articles, extracted 33 different ways for increasing citation possibilities
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Skill and know-how (2)• Use a Unique Name Consistently
• Use a standardised institutional affiliation and address, using no abbreviations
• Assign keyword terms to the manuscript
• Publish in journal with high impact factor
• Self-archive articles
• Team-authored articles get cited more
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Skill and know-how (3)• Review articles
• Contribute to Wikipedia
• Join academic social networking sites
• Share detailed research data
• Publish your work in a journal with the highest number of abstracting and indexing
• Create an online CV
• Make a podcast about your research
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Safety• Note the limitations of citation analysis
• Papers are cited for a variety of reasons, some of which are not related to the value of the research
• Citation analysis relies heavily on journal content. However many subject areas prefer to publish books and are therefor not well represented in citation indexes.
• Major indexes STM focus
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Caution• Indicators should be a means to an end not an end in itself
• Use indicators in combination (never rely on one indicator)
• Peer-review should still be regarded as the primary judge of science
• avoid the perversion of the science process, use metrics responsibly
• Guard against “publication obesity”
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Thank you!