The analysis of animal movement from telemetry data provides insights into how and why animals move. While traditional approaches to such analysis mostly focus on predicting animal states during movement, we describe an approach that allows us to identify representative movement patterns of different animal groups. To do this, we propose a carefully designed recurrent neural network and combine it with telemetry data for automatic feature extraction and identification of non-predefined representative patterns. In the experiment, we consider a particular marine predator species, the southern elephant seal, as an example. With our approach, we identify that the male seals in our data set share similar movement patterns when they are close to land. We identify this pattern recurring in a number of distant locations, consistent with alternative approaches from previous research.
Jorge Rodríguez, Juan Fernández-Gracia, Michele Thums, Mark A. Hindell, Ana M. M. Sequeira, Mark G. Meekan, Daniel P. Costa, Christophe Guinet, Robert Harcourt, Clive R. McMahon, Mônica M. C. Muelbert, Carlos M. Duarte, Victor M. Eguı́luz
Xinqing Li, Tanguy Tresor Sindihebura, Lei Zhou, Carlos M. Duarte, Daniel P. Costa, Mark A. Hindell, Clive R. McMahon, Mônica M. C. Muelbert, Xiangliang Zhang, Chengbin Peng
Ana M. M. Sequeira, Jorge Rodríguez, Victor M. Eguı́luz, Robert Harcourt, Mark A. Hindell, David Sims, Carlos M. Duarte, Daniel P. Costa, Juan Fernández-Gracia, Luciana C. Ferreira, Graeme C. Hays, Michelle R. Heupel, Mark G. Meekan, Allen M. Aven, Frédéric Bailleul, Alastair M. M. Baylis, Michael L. Berumen, Camrin D. Braun, Jennifer M. Burns, M. Julian Caley, Rose Campbell, Ruth H. Carmichael, Éric Clua, Luke D. Einoder,
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