Cooperative Object Transportation using Gibbs Random Fields
This addresses the challenge of efficient and fault-tolerant multi-robot coordination for tasks like object transportation, with incremental improvements in decentralized control.
The paper tackles the problem of enabling a swarm of robots to cooperatively transport objects by modeling them as a Gibbs Random Field, resulting in a decentralized method that is scalable, adaptable, and robust in simulations and experiments.
This paper presents a novel methodology that allows a swarm of robots to perform a cooperative transportation task. Our approach consists of modeling the swarm as a {\em Gibbs Random Field} (GRF), taking advantage of this framework's locality properties. By setting appropriate potential functions, robots can dynamically navigate, form groups, and perform cooperative transportation in a completely decentralized fashion. Moreover, these behaviors emerge from the local interactions without the need for explicit communication or coordination. To evaluate our methodology, we perform a series of simulations and proof-of-concept experiments in different scenarios. Our results show that the method is scalable, adaptable, and robust to failures and changes in the environment.