On the impact of network size and average degree on the robustness of centrality measures

Martin, Christoph; Niemeyer, Peter

doi:10.1017/nws.2020.37

Cited by 4 publications

(2 citation statements)

References 49 publications

(50 reference statements)

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“…A low average degree may denote many isolated nodes, while, a high degree tells that there are many relationships among nodes (i.e., high collaboration). Although there are no conclusive studies, in [Martin and Niemeyer 2021] the authors present empirical evidence demonstrating that average degree can explain the robustness of networks regardless of their sizes. Specifically, they tested that average degree is a more robust centrality measure when compared to Eigenvector and PageRank, even considering different levels of errors (e.g., duplicated nodes, erroneous removal of nodes or vertices).…”

Section: Network Metricsmentioning

confidence: 96%

Scientific Collaboration Network Views: A Brazilian Computer Science Graduate Programs Case

Costa

Nunes²,

Ralha³

2022

jidm

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Scientific collaboration networks can present different views of researchers’ interactions. This work presents SCI-synergy, an online navigable artifact aiming to promote mechanisms and views of scientific collaboration networks. The artifact focuses on the researchers’ interaction in the co-authorship of publications considering intra- and interprogram relationships. SCI-synergy is developed upon the design science research paradigm using scientific publication data available on the large Digital Bibliography & Library Project (DBLP) repository. Official data from the Sucupira repository of six Brazilian graduate program members including Federal University of Minas Gerais (UFMG), State University of São Paulo (USP), Federal University of Rio Grande do Norte (UFRN), Federal University of Amazonas (UFAM), University of Brasília (UnB), and University of Vale do Rio dos Sinos (UNISINOS) is used. Data from these graduate programs illustrate the artifact usage regarding the scientific collaboration network of each program, how each researcher cooperates, and what relationship patterns exist in intra- and inter-programs views. We advocate that, even though it is necessary to consider data from each program’s history and current contextualization regarding politics, economics, and administration, the collaboration network views provided by SCI-synergy might help to understand collaboration network patterns.

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Section: Network Metricsmentioning

confidence: 96%

Scientific Collaboration Network Views: A Brazilian Computer Science Graduate Programs Case

Costa

Nunes²,

Ralha³

2022

jidm

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“…In Martin and Niemeyer (2020), the authors investigate how different kinds of mismeasurements affect centrality measures. Robustness is measured by injecting errors through an error mechanism that emulates some possible data errors: edge addition, uniform and degreeproportional edges removal, nodes removal.…”

mentioning

confidence: 99%

Introduction to the special issue on COMPLEX NETWORKS 2019

Cherifi

Rocha²

2021

Net Sci

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and many others, making it a special opportunity to review the current state of the field and formulate new directions.This edition of the conference took place at the Calouste Gulbenkian Foundation in Lisbon (Portugal) from December 10 to December 12, 2019. It attracted 470 submissions with authors from 58 countries all over the world. After thorough review, 161 papers were selected to be included in the proceedings Cherifi et al. (2020a,b). The conference program also included keynote presentations from

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