loopersis

Loopersis is a theoretical concept in systems science describing a class of dynamic states in which a system's evolution traces closed, repeating trajectories in its state space due to reinforcing feedback loops. In loopersis, cycles persist with limited drift over time, yielding quasi-periodic behavior even in the absence of external periodic forcing. The term blends the idea of looping with a suffix used in theoretical labels, and it was coined in the early 2020s by researchers studying complex networks and regulatory architectures.

Core features of loopersis include cycle attractors with stable amplitude, resilience to moderate perturbations, and rapid

Applications appear in computational simulations of neural and genetic networks, autonomous control systems with closed-loop regulation,

Critics note that loopersis is an abstract framing rather than a distinct empirical class, and its identifiability