We tackle the problem of predict whether a target user (or group of users) will be active within an event stream before a time horizon. Our solution, called PATH, leverages recurrent neural networks to learn an embedding of the past events. The embedding allows to capture influence and susceptibility between users and places closer (the representation of) users that frequently get active in different event streams within a small time interval. We conduct an experimental evaluation on real world data and compare our approach with related work.
Predicting temporal activation patterns via recurrent neural networks / Manco, G.; Pirro', Giuseppe; Ritacco, E.. - 11177:(2018), pp. 347-356. (Intervento presentato al convegno 24th International Symposium on Methodologies for Intelligent Systems, ISMIS 2018 tenutosi a Cyprus) [10.1007/978-3-030-01851-1_33].
Predicting temporal activation patterns via recurrent neural networks
Pirro' Giuseppe
;
2018
Abstract
We tackle the problem of predict whether a target user (or group of users) will be active within an event stream before a time horizon. Our solution, called PATH, leverages recurrent neural networks to learn an embedding of the past events. The embedding allows to capture influence and susceptibility between users and places closer (the representation of) users that frequently get active in different event streams within a small time interval. We conduct an experimental evaluation on real world data and compare our approach with related work.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
