Paper ID: 2310.01573

Mixed Reality Environment and High-Dimensional Continuification Control for Swarm Robotics

Gian Carlo Maffettone, Lorenzo Liguori, Eduardo Palermo, Mario di Bernardo, Maurizio Porfiri

Many new methodologies for the control of large-scale multi-agent systems are based on macroscopic representations of the emerging systemdynamics, in the form of continuum approximations of large ensembles. These techniques, that are typically developed in the limit case of an infinite number of agents, are usually validated only through numerical simulations. In this paper, we introduce a mixed reality set-up for testing swarm robotics techniques, focusing on the macroscopic collective motion of robotic swarms. This hybrid apparatus combines both real differential drive robots and virtual agents to create a heterogeneous swarm of tunable size. We also extend continuification-based control methods for swarms to higher dimensions, and assess experimentally their validity in the new platform. Our study demonstrates the effectiveness of the platform for conducting large-scale swarm robotics experiments, and it contributes new theoretical insights into control algorithms exploiting continuification approaches.

Submitted: Oct 2, 2023