Open AccessToward a Complete Agent-Based Model of a Honeybee Colony
Author(s) -
Jérémy Rivière,
Cédric Alaux,
Yves Le Conte,
Yves Layec,
André Lozac’h,
Vincent Rodin,
Frank Singhoff
Publication year - 2018
Publication title -
communications in computer and information science
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.16
H-Index - 51
eISSN - 1865-0937
pISSN - 1865-0929
DOI - 10.1007/978-3-319-94779-2_42
Subject(s) - foraging , computer science , beekeeping , selection (genetic algorithm) , process (computing) , nectar , scale (ratio) , honey bees , agent based model , artificial intelligence , ecology , biology , geography , cartography , pollen , operating system
The agent-based approach has been successfully used in the past years to model and simulate complex systems. We use this approach on a honeybee colony in a Dadant hive, where several tens of thousands of bees interact, in order to evaluate the impact of local actions at the bee-level (such as beekeeping practices) on the global system. In this article, we focus on the foraging activity, its recruitment mechanisms and the behaviour of foraging bees, and how these bees interact with the hive’s environment, greatly different in scale. We present a customizable, agent-compliant module called the Ecosystem Module, that aims at modelling and simulating the foraging, according to the local weather and the surrounding nectar sources. First results back up our model, showing that these recruitment mechanisms lead to a self-organizing process of the best available sources’ selection by the agents.
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