Eigenvector-Based Centrality Measures for Temporal Networks

Taylor, Dane; Myers, Sean A.; Clauset, Aaron; Porter, Mason A.; Mucha, Peter J.

doi:10.1137/16m1066142

Cited by 173 publications

(209 citation statements)

References 115 publications

(234 reference statements)

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“…The parameter is included to account for the fact that the identity matrices represent "between layer" connections (generally linking node i at time k to node i at times k − 1 and k + 1) which are inherently different to the "within layer" weights arising from the network data. The key idea in [27] is to apply a standard static network centrality algorithm to the supra-centrality matrix (13 in the Katz-based setting), the supra-centrality matrix M is symmetric. It then becomes apparent that any static network algorithm applied to M must be oblivious to the type of temporal asymmetry that we have discussed.…”

Section: Discussionmentioning

confidence: 99%

Asymmetry through time dependency

Mantzaris

Higham

2016

Eur. Phys. J. B

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Abstract. Given a single network of interactions, asymmetry arises when the links are directed. For example, if protein A upregulates protein B and protein B upregulates protein C, then (in the absence of any further relationships between them) A may affect C but not vice versa. This type of imbalance is reflected in the associated adjacency matrix, which will lack symmetry. A different type of imbalance can arise when interactions appear and disappear over time. If A meets B today and B meets C tomorrow, then (in the absence of any further relationships between them) A may pass a message or disease to C, but not vice versa. Hence, even when each interaction is a two-way exchange, the effect of time ordering can introduce asymmetry. This observation is very closely related to the fact that matrix multiplication is not commutative. In this work, we describe a method that has been designed to reveal asymmetry in static networks and show how it may be combined with a measure that summarizes the potential information flow between nodes in the temporal case. This results in a new method that quantifies the asymmetry arising through time ordering. We show by example that the new tool can be used to visualize and quantify the amount of asymmetry caused by the arrow of time.

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Section: Discussionmentioning

confidence: 99%

Asymmetry through time dependency

Mantzaris

Higham

2016

Eur. Phys. J. B

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“…To do this we combine the theoretical framework of Woloch [30] and Moretti [19,20,21] for literary studies with techniques developed by Taylor et al [26] for temporal networks on the mathematical side. To the best of our knowledge the present paper is the first one where these methods are applied to literature.…”

Section: Introductionmentioning

confidence: 99%

“…This paper is organized as follows: In the first section we briefly review the theoretical framework of character networks in literature while addressing the first question: how to choose a network. This is followed by an exposition of the method propounded in [26] In this sense a story really is a complex system. This is a matter-of-course fact in literary studies but here lies the link to the application of network theory to narratives: taking networks as the natural theoretical framework for studying the interdependence between agents that act through space and time, the main task one faces is how to disregard, in a principled way, aspects of narratives which might not render themselves amenable to a mathematical treatment.…”

Section: Introductionmentioning

confidence: 99%

“…The way they introduced dynamics is by looking at some relevant measures chapter by chapter and comparing them. Taylor et al devised in [26] a way of generalizing eigenvector-based measures usually studied in time-independent scenarios to temporal networks. These authors look at snapshots of the network at different time layers and treating inter-layer connections (same time) and intra-layer connections (different times) as being essentially different.…”

Section: Introductionmentioning

confidence: 99%

“…One may then use all the results from spectral analysis already known to work for aggregate networks. This ideas were tested with 3 networks: the exchange of PhD's in mathematics in the United States, the costarring networks of top-billed actors during the Golden Age of Hollywood and citations of decisions of the American Supreme Court [26]. The results presented in [1] represent a valuable approach towards incorporating some sort of dynamics into networks as well as in the way they attribute values to edges, but we believe that the methods of Taylor and coworkers capture the dynamics in a more consistent and rigorous way.…”

Section: Introductionmentioning

confidence: 99%

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Temporal Network Analysis of Literary Texts

Prado

Dahmen

Bazzan

et al. 2016

Advs. Complex Syst.

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We study temporal networks of characters in literature focusing on Alice's Adventures in Wonderland (1865) by Lewis Carroll and the anonymous La Chanson de Roland (around 1100). The former, one of the most influential pieces of nonsense literature ever written, describes the adventures of Alice in a fantasy world with logic plays interspersed along the narrative. The latter, a song of heroic deeds, depicts the Battle of Roncevaux in 778 A.D. during Charlemagne's campaign on the Iberian Peninsula. We apply methods recently developed by Taylor et al. [26] to find time-averaged eigenvector centralities, Freeman indices and vitalities of characters. We show that temporal networks are more appropriate than static ones for studying stories, as they capture features that the time-independent approaches fail to yield.

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