veeringlus

Veeringlus is a theoretical construct in the study of collective dynamics that denotes a spontaneous change in the overall direction of a system of interacting agents, occurring without external steering. In models that assume local alignment, veeringlus manifests as a deviation from a previously coherent trajectory, leading to curved, oscillatory, or split-group motion. The term combines veering with a suffix -lus to indicate a natural property or state. While not universally observed in real-world data, veeringlus provides a useful lens for analyzing stability and control in active systems.

Origins and scope: The concept arises in simulations of swarms, pedestrian flow, and robotic teams where noise,

Mechanisms and modeling: Veeringlus can emerge from delayed perception, non-linear response to neighbor headings, or coupling

Implications and applications: Understanding veeringlus informs the design of robust swarm control algorithms, crowd management strategies,