Collective attention under digital exposure: A dynamical systems approach

TL;DR

This paper presents a dynamical systems model to understand how continuous digital exposure affects collective attention, showing that increased stimulation gradually reduces attention levels without bistability.

Contribution

It introduces a minimal macroscopic dynamical framework that captures the decline in collective attention due to digital stimulation, without relying on social contagion effects.

Findings

Attention decreases monotonically with increased digital exposure.

The model's equilibrium shifts toward lower attention levels under high stimulation.

Digital overstimulation deforms the dynamical landscape, reducing stable attention states.

Abstract

The widespread use of digital devices has raised growing concerns about its impact on sustained attention at the population level. In this work, we propose a minimal dynamical framework to describe the collective evolution of attention under continuous exposure to screen-mediated environments. We introduce a macroscopic variable representing the average level of sustained attention and model its dynamics as the result of competing mechanisms: intrinsic cognitive recovery and degradation induced by digital stimulation. The digital environment is treated as an external control parameter that continuously perturbs the system, leading to a relaxational dynamics. The proposed mechanisms are consistent with empirical findings on attentional dynamics under digital exposure. We first analyze a linear formulation, which provides an analytically tractable baseline, and then extend the model by incorporating a nonlinear degradation term that captures amplification effects under high-intensity stimulation. We derive an explicit expression for the stationary state and show that the equilibrium attention level decreases monotonically with increasing exposure. An effective potential formulation is introduced, revealing that digital overstimulation progressively deforms the dynamical landscape, shifting the stable state toward regimes of reduced attention without generating multiple equilibria. Importantly, the model does not rely on social contagion or interaction-driven bistability, but instead describes a continuous displacement of the collective cognitive regime under environmental pressure. Our results suggest that the impact of digital technologies on attention may be understood as a gradual macroscopic effect emerging from persistent external stimulation, rather than as a transition between competing behavioral states.