Abstract
AbstractRecent work has employed information theory in social and complex networks. Studies often discuss entropy in the degree distributions of a network. However, no specific work on entropy exists in clique networks. This work is an extension of a previous study that discussed this topic. We propose a method for calculating the entropy of a clique network and its minimum and maximum values in temporal semantic networks based on titles of scientific papers. In addition, the critical network of moments was extracted. We use the titles of scientific papers published in Nature and Science over ten-year period. The results show the diversity of vocabulary over time, based on the entropy values of vertices and edges. In each critical network, we discover the paths that connect important words and an interesting modular structure.
Publisher
Springer Science and Business Media LLC
Subject
Computational Mathematics,Computer Networks and Communications,Multidisciplinary
Reference39 articles.
1. Amblard, F, Casteigts A, Flocchini P, Quattrociocchi W, Santoro N (2011) On the temporal analysis of scientific network evolution In: CASoN, 169–174. https://doi.org/10.1109/cason.2011.6085938.
2. Andrade, JC, Barreto RSFD, Cunha MV, Ribeiro NM, Pereira HBB (2019) Interdisciplinaridade e teoria de redes: rede semântica de cliques baseada em ementas e rede de componentes curriculares. iSys-Revista Brasileira de Sistemas de Informação 12(3):24–52.
3. Barabasi, AL, Albert R (1999) Emergence of scaling in random networks. Science 286:509–512.
4. Barabâsi, A-L, Jeong H, Néda Z, Ravasz E, Schubert A, Vicsek T (2002) Evolution of the social network of scientific collaborations. Physica A Stat Mech Appl 311(3):590–614.
5. Brillouin, L (2013) Science and Information Theory. Courier Corporation, North Chelmsford.
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