A connectionist and multivariate approach to science maps: the SOM,                 clustering and MDS applied to library and information science research

Anegón, Félix de Moya; Herrero-Solana, Víctor; Jiménez‐Contreras, Evaristo

doi:10.1177/0165551506059226

Cited by 56 publications

(44 citation statements)

References 27 publications

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“…3D MDS maps (authors' approach) and SOM have shown the better properties than VOS and VxOrd. These results have proved the findings and interpretations obtained from qualitative analysis [9]. Given maps have revealed essential changes in computer science literature during the time of the development of the CCS classification compared.…”

Section: Discussionsupporting

confidence: 74%

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Mapping Evaluation for Semantic Browsing

Osińska

Jóźwik

Osiński

2015

Annals of Computer Science and Information Systems

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Abstract-The paper contributes to the problem solving in semantic browsing and analysis of scientific articles. With reference to presented visual interface, four -the most popular methods of mapping including own approach -MDS with spherical topology, have been compared. For a comparison quantitative measures were applied which allowed to select the most appropriate mapping way with an accurate reflection of the dynamics of data. For the quantitative analysis the authors used machine learning and pattern recognition algorithms and described: clusterization degree, fractal dimension and lacunarity. Local density differences, clusterization, homogeneity, and gappiness were measured to show the most acceptable layout for an analysis, perception and exploration processes. Visual interface for analysis how computer science evolved through the two last decades is presented on website. Results of both quantitative and qualitative analysis have revealed good convergence. I. INTRODUCTIONonlinear growth of scientific writing imposes a new forms of academic databases management. The latter includes the both retrieval and analytical exploration. Analysts, science of science professionals, science policy makers need various computing, statistical and visualization tools to monitor how science or scientific domains evolved. N Authors designed and described in a series of papers [1], [2] the visual interface for analysis of dynamics of computer science through the two last decades 1 . Screenshot of spherical application is shown on Figure 1. Users can interact, manipulate and browse the data and see how graphical pattern change in time. The nodes represent scientific articles from digital library and the colour -appropriate thematic category. Similarity metrics was based on semantic relations between documents [2]. In order to generate 3D layout, multidimensional scaling (MDS) technique was applied and enriched by Morse potential [1].Overlapping spots show where the categories mutually integrate that means an articles at that location are semantically similar. Visualization of classified documents reveals both organization of digital library content as well as allows users to track how it changes over time. This paper presents fur-1 http://www-users.mat.umk. pl/~garfi/vis2009v3/ ther study on visualization maps. Authors decided to test this prototype regarding to mapping algorithms. Four mapping methods were compared in terms of dynamics and analytical possibility of output visualization. The next chapter shows the outline of VxOrd, MDS, VOS, SOM as the most popular methods. II.MAPPING PREVIEWHow we, as analysts, perceive and understand the connections between data, depends on graphical layout. Thus, the final structure of visualized knowledge can be drawn either by spatial arrangement (2D or 3D) of analysis units or by the relationship between nodes in graph or combination of these two.One of the basic ordination algorithm -VxOrd extends a traditional force-directed approach [3]. VxOrd determines the both number and size of ...

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Section: Discussionsupporting

confidence: 74%

“…1 Interface screenshot -the prototype of application for semantic browsing researchers concluded that maps constructed using VOS approach provide a more satisfactory representation of the underlying dataset [8]. MDS-VOS tests revealed the first one is distance preserving while the second -topology preserving technique [9], [10].…”

Section: Iimapping Previewmentioning

confidence: 99%

Mapping Evaluation for Semantic Browsing

Osińska

Jóźwik

Osiński

2015

Annals of Computer Science and Information Systems

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“…Identifying an equal number of male and female coevals was not easy. We found that "most-cited" lists of information science researchers (e.g., Moya-Anegon, Herrero-Solana, & Jimenez-Contreras, 2006;White, 2003) Table 1.…”

Section: Sample Selectionmentioning

confidence: 99%

Biobibliometric profiling: An examination of multifaceted approaches to scholarship

Sugimoto

Cronin

2011

J. Am. Soc. Inf. Sci.

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We conducted a fine-grained prosopography of six distinguished information scientists to explore commonalities and differences in their approaches to scholarly production at different stages of their careers. Specifically, we gathered data on authors' genre preferences, rates and modes of scholarly production, and coauthorship patterns. We also explored the role played by gender and place in determining mentoring and collaboration practices across time. Our biobibliometric profiles of the sextet reveal the different shapes a scholar's career can take. We consider the implications of our findings for new entrants into the academic marketplace.

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“…Pioneering work on grouping of journals into subject categories based on reference/citation analysis was carried out by PINSKY & NARIN [1976]. An alternative way to group journals is journal co-citation analysis, based on the number of times any pair of journals is cited in the same source article (e.g., [MOYA-ANEGON & AL., 2006].…”

Section: Introductionmentioning

confidence: 99%

Expansion of scientific journal categories using reference analysis: How can it be done and does it make a difference?

et al. 2009

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This paper explores a methodology for delimitating scientific subfields by combining the use of (specialist) journal categories from Thomson Scientific's Web of Science (WoS) and reference analysis. In a first step it selects all articles in journals included in a particular WoS journal category covering a subfield. These journals are labelled as a subfield's specialist journals. In a second step, this set of papers is expanded with papers published in other, additional journals and citing a subfield's specialist journals with a frequency exceeding a certain citation threshold. Data are presented for two medical subfields: Oncology and Cardiac & Cardiovascular System. A validation based on findings from earlier studies, from an analysis of MESH descriptors from MEDLINE, and on expert opinion provides evidence that the proposed methodology has a high precision, and that expansion substantially enhanced the recall, not merely in terms of the number of retrieved papers, but also in terms of the number of research topics covered. The paper also examines how a bibliometric ranking of countries and universities based on the citation impact of their papers published in a subfield's specialist journals compares to that of a ranking based on the impact of their articles in additional journals. Rather weak correlations especially obtained at the level of universities underline the conclusion from earlier studies that an assessment of research groups or universities in a scientific subfield that takes into account solely papers published in a subfield's specialist journals is unsatisfactory.

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A connectionist and multivariate approach to science maps: the SOM, clustering and MDS applied to library and information science research

Cited by 56 publications

References 27 publications

Mapping Evaluation for Semantic Browsing

Mapping Evaluation for Semantic Browsing

Biobibliometric profiling: An examination of multifaceted approaches to scholarship

Expansion of scientific journal categories using reference analysis: How can it be done and does it make a difference?

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