The Relevance Index has been introduced to detect key features of the organisation of complex dynamical systems. It is based upon Shannon entropies and can be used to identify groups of variables that change in a coordinated fashion, while they are less integrated with the rest of the system. In previous work, we have shown that the average Relevance Index attains its maximum at the phase transition in both Ising model and random Boolean networks. In this contribution we present a further study on the Ising model, showing that the relevance index is maximised for large groups of variables at criticality. These results provide further evidence to the hypothesis that this index is a powerful measure for capturing criticality.
Roli, A., Villani, M., Serra, R. (2019). A View of Criticality in the Ising Model Through the Relevance Index. Cham : Springer [10.1007/978-3-030-15277-2_12].
A View of Criticality in the Ising Model Through the Relevance Index
Roli, Andrea;
2019
Abstract
The Relevance Index has been introduced to detect key features of the organisation of complex dynamical systems. It is based upon Shannon entropies and can be used to identify groups of variables that change in a coordinated fashion, while they are less integrated with the rest of the system. In previous work, we have shown that the average Relevance Index attains its maximum at the phase transition in both Ising model and random Boolean networks. In this contribution we present a further study on the Ising model, showing that the relevance index is maximised for large groups of variables at criticality. These results provide further evidence to the hypothesis that this index is a powerful measure for capturing criticality.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.