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VERSION:2.0
PRODID:ECMLPKDD-MB
BEGIN:VEVENT
DTSTAMP;TZID=Europe/Dublin:20180826T200000
UID:_ecmlpkdd_249
DTSTART;TZID="Europe/Dublin":20180911T144000
DTEND;TZID="Europe/Dublin":20180911T150000
LOCATION:Hogan Mezz 2
TRANSP:TRANSPARENT
SEQUENCE:1
DESCRIPTION:The outcome of interactions in many real-world systems can be often explained by a hierarchy between the participants. Discovering hierarchy from a given directed network can be formulated as follows: partition vertices into levels such that, ideally, there are only forward edges, that is, edges from upper levels to lower levels. In practice, the ideal case is impossible, so instead we minimize some penalty function on the backward edges. One practical option for such a penalty is agony, where the penalty depends on the severity of the violation. In this paper we extend the definition of agony to temporal networks. In this setup we are given a directed network with time stamped edges, and we allow the rank assignment to vary over time. We propose 2 strategies for controlling the variation of individual ranks. In our first variant, we penalize the fluctuation of the rankings over time by adding a penalty directly to the optimization function. In our second variant we allow the rank change at most once. We show that the first variant can be solved exactly in polynomial time while the second variant is NP-hard, and in fact inapproximable. However, we develop an iterative method, where we first fix the change point and optimize the ranks, and then fix the ranks and optimize the change points, and reiterate until convergence. We show empirically that the algorithms are reasonably fast in practice, and that the obtained rankings are sensible.
SUMMARY:Dynamic hierarchies in temporal directed networks
CLASS:PUBLIC
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END:VCALENDAR