by
Sebastiano Stramaglia(Univ. of Bari and INFN, Sezione di Bari)
→
Europe/Stockholm
122:026
122:026
Description
Inverse Ising problem is the prototypical example of inference of
dynamical networks from data, a topic which is widely studied
due to the fact that dynamical networks model physical and biological behavior in many applications.
We show that autoregressive methods, like Granger causality, may be used to learn the
couplings of an Ising model, also in the case of asymmetric connections and for multi-spin interactions. We find that, for each link, the linear Granger causality is two times the corresponding transfer entropy (i.e. the information flow on that link) in the
weak coupling limit. For sparse connections and a low number of samples, the L1 regularized least squares method can be used to detect the interacting pairs of spins. Nonlinear Granger causality is related to multispin interactions. We also describe applications in Neuroscience, in particular to the estimation of effective connectivity in the brain.