Abstract
We analyse an extended version of the dynamical mean-field Ising model. Instead of classical physical representation of spins and external magnetic field, the model describes traders’ opinion dynamics. The external field is endogenised to represent a smoothed moving average of the past state variable. This model captures in a simple set-up the interplay between instantaneous social imitation and past trends in social coordinations. We show the existence of a rich set of bifurcations as a function of the two parameters quantifying the relative importance of instantaneous versus past social opinions on the formation of the next value of the state variable. Moreover, we present thorough analysis of chaotic behaviour, which is exhibited in certain parameter regimes. Finally, we examine several transitions through bifurcation curves and study how they could be understood as specific market scenarios. We find that the amplitude of the corrections needed to recover from a crisis and to push the system back to “normal” is often significantly larger than the strength of the causes that led to the crisis itself.
Highlights
The Ising model and its mean-field version have a time-honored history in economics, sociology and finance, since its introduction as a mathematical model of ferromagnetism in statistical mechanics in 1920
Rather than magnetic spins related via Heisenberg interactions, the spins represent agents who have several options and decide to adopt one of them according to a combination of inputs involving their own idiosyncratic judgments, external news and social influences
Motivated by its applications to financial markets, we study an extended version of the dynamical mean-field equation of the Ising model in which the external field is endogenized to represent a smoothed moving average of the past state variable
Summary
The Ising model and its mean-field version have a time-honored history in economics, sociology and finance, since its introduction as a mathematical model of ferromagnetism in statistical mechanics in 1920. Motivated by its applications to financial markets, we study an extended version of the dynamical mean-field equation of the Ising model in which the external (magnetic or news) field is endogenized to represent a smoothed moving average of the past state variable. This new model stands for a simplification of the interplay between instantaneous social imitation and past trends in social coordinations [Harras et al, 2012; Kaizoji et al, 2015; Sornette & Zhou, 2006; Zhou & Sornette, 2007].
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