New SubmissionA Comparitive Analysis of Deterministic and Stochastic Models of Insect Swarms

Insect swarms exhibit collective behavior that emerge from the seemingly random motion of insects inside the swarm. A deterministic model developed by Gorbonos et al. [1] describes this adaptive gravitational force alongside a repulsive force that prevents collisions among insects and an elastic potential, providing a framework for understanding their interactions. The elastic potential and corresponding spring constants, identified through studies of laboratory insect swarms, describe oscillations in the insects’ movement and result in an elongation of the swarm along the vertical axis. This model is compared to a stochastic swarming model with weighting to mimic the affect of gravity and the discussed acoustic gravity-like force. Inertia tensors for both swarms are calculated and compared. The results of this research help to improve our understanding of emergence through the lens of swarms and complexity.

[1.] Dan Gorbonos et al, New J. Phys. 2016, 18, 073042.