2007
DOI: 10.1002/asi.20683
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Visualizing the marrow of science

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Cited by 99 publications
(82 citation statements)
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References 29 publications
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“…Among many other achievements, science mapping become the keystone of visualizing and analyzing computer graphics (Chen et al, 2001), using ISI categories to represent science (Moya-Anegón et al, 2004), mapping the backbone of science (Boyack et al, 2005), evaluating large maps of disciplines (Klavans and Boyack, 2006), visualizing the citation impact of scientific journals (Leydesdorff, 2007a), mapping interdisciplinarity (Leydesdorff, 2007b), viewing the marrow of science (Moya-Anegón et al, 2007b), creating dynamic animations of journal maps (Leydesdorff and Schank, 2008), mapping the structure and evolution of chemistry research , proposing a consensus map of science , creating a journal map using Scopus data , mapping the geography of science (Leydesdorff and Persson, 2010), clustering over two million biomedical publications , creating more accurate document-level maps of research fields , detecting and visualizing the evolution of the fuzzy sets theory field (Cobo et al, 2011b), proposing a new global science map (Leydesdorff et al, 2013a,b;Boyack and Klavans, 2014), analyzing the investigation in integrative and complementary medicine (Moral-Muñoz et al, 2014), analyzing intelligent transportation systems , showing the evolution of bases knowledge systems , showing the scientific evolution of social work , outlining animal science research (Rodriguez-Ledesma et al, 2015), studying the conceptual evolution of marketing research (Murgado-Armenteros et al, 2015) identifying and depicting the intellectual structure and research fronts in nanoscience and nanotechnology in the world (Muñoz-Écija et al, 2017), and exploring the scientific evolution of e-Government (Alcaide-Muñoz et al, in press), among other brave new initiatives.…”
Section: Related Workmentioning
confidence: 99%
“…Among many other achievements, science mapping become the keystone of visualizing and analyzing computer graphics (Chen et al, 2001), using ISI categories to represent science (Moya-Anegón et al, 2004), mapping the backbone of science (Boyack et al, 2005), evaluating large maps of disciplines (Klavans and Boyack, 2006), visualizing the citation impact of scientific journals (Leydesdorff, 2007a), mapping interdisciplinarity (Leydesdorff, 2007b), viewing the marrow of science (Moya-Anegón et al, 2007b), creating dynamic animations of journal maps (Leydesdorff and Schank, 2008), mapping the structure and evolution of chemistry research , proposing a consensus map of science , creating a journal map using Scopus data , mapping the geography of science (Leydesdorff and Persson, 2010), clustering over two million biomedical publications , creating more accurate document-level maps of research fields , detecting and visualizing the evolution of the fuzzy sets theory field (Cobo et al, 2011b), proposing a new global science map (Leydesdorff et al, 2013a,b;Boyack and Klavans, 2014), analyzing the investigation in integrative and complementary medicine (Moral-Muñoz et al, 2014), analyzing intelligent transportation systems , showing the evolution of bases knowledge systems , showing the scientific evolution of social work , outlining animal science research (Rodriguez-Ledesma et al, 2015), studying the conceptual evolution of marketing research (Murgado-Armenteros et al, 2015) identifying and depicting the intellectual structure and research fronts in nanoscience and nanotechnology in the world (Muñoz-Écija et al, 2017), and exploring the scientific evolution of e-Government (Alcaide-Muñoz et al, in press), among other brave new initiatives.…”
Section: Related Workmentioning
confidence: 99%
“…Consistent with this expectation, Newman [29] showed that subdiscipline-specific collaboration graphs have distinctive community structures, and in particular that collaborations in the biomedical sciences exhibited far less clustering -and hence greater apparent randomness -than collaborations in subdisciplines of physics or the information sciences. Distinctive community structures and disciplinary and subdisciplinary clustering have been confirmed by subsequent studies of coauthorship in discipline-specific data sets [31] and of citation patterns in multi-disciplinary data sets [22,28,40]. Such community structure is also observed in metabolic, electronic, and other non-social networks (e.g.…”
Section: Introductionmentioning
confidence: 57%
“…A scientogram or map of science based on SJR journals and their subsequent subject assignment derived from applying VOS community detection clustering. Despite various differences in the data set, methodology and techniques used in our proposal, there is considerable resemblance between this scientogram and those of Moya-Anegón et al (2007) or Leydesdorff et al (2015a;2015b). Indeed, the scientogram shape, like a croissant, was evoked by Leydesdorff et al (2013), who asserted that "this croissant-like structure also accords with Klavans and Boyack's (2009) conclusion that a consensus has increasingly emerged regarding the shape of journal maps based on aggregated citations".…”
Section: Discussionmentioning
confidence: 92%