Nonparametric analysis of inter‐individual relations using an attention‐based neural network

Nonparametric analysis of inter‐individual relations using an attention‐based neural network

Abstract Social network analysis, which has been widely adopted in animal studies over the past decade, enables the revelation of global characteristic patterns of animal social systems from pairwise inter‐individual relations. Animal social networks are typically drawn based on the geometric proxim...

Full description

Saved in:
Bibliographic Details
Main Authors: Takashi Morita, Aru Toyoda, Seitaro Aisu, Akihisa Kaneko, Naoko Suda‐Hashimoto, Ikuma Adachi, Ikki Matsuda, Hiroki Koda
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:Methods in Ecology and Evolution
Subjects:
animal society
attention mechanism
deep learning
interaction
Japanese macaque
social network analysis
Online Access:https://doi.org/10.1111/2041-210X.13613
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Social network analysis, which has been widely adopted in animal studies over the past decade, enables the revelation of global characteristic patterns of animal social systems from pairwise inter‐individual relations. Animal social networks are typically drawn based on the geometric proximity and/or frequency of social behaviours (e.g. grooming), but the appropriate metric for inter‐individual relationship is not clear, especially when prior knowledge on the species/data is limited. In this study, researchers explored a nonparametric analysis of inter‐individual relations using a neural network with the attention mechanism, which plays a central role in natural language processing. The high interpretability of the attention mechanism and flexibility of the entire neural network allow for automatic detection of inter‐individual relations included in the raw data, without requiring prior knowledge/assumptions about what modes/types of relations are included in the data. For these case studies, three‐dimensional location data collected from simulated agents and real Japanese macaques were analysed. The proposed method successfully recovered the latent relations behind the simulated data and discovered female‐oriented relations in the real data, which are in accordance with the previous generalizations about the macaque social structure. The proposed method does not exploit any behavioural patterns that are particular to Japanese macaques, and researchers can use it for location data of other animals. The flexibility of the neural network would also allow for its application to a wide variety of data with interacting components, such as vocal communication. ​
ISSN:2041-210X

Similar Items