General Resetting Theory for Group Avoidance

We present a general theoretical framework for group resetting dynamics in multi-agent systems in a drift potential. This setup contrasts with a typical resetting problem that involves a single searcher looking for a target, with resetting traditionally studied to optimize the search time to a target. More recently, resetting has also been used as a regulatory mechanism to avoid adverse outcomes, such as preventing critically high water levels in dams or deleveraging financial portfolios. Here, we extend current resetting theories to group dynamics, with applications ranging from bacterial evolution under antibiotic pressure to multiple-searcher optimization algorithms. Our framework incorporates extreme value statistics and renewal theory, from which we derive a master equation for the center of mass distribution of a group of searchers. This master equation allows us to calculate essential observables analytically. For example, how the group's average position depends on group size, resetting rates, drift potential strength, and diffusion constants. This theoretical approach offers a new perspective on optimizing group search and regulatory mechanisms through resetting.
Comment: 5 pages, 3 figures