Abstract
We treat the parameter estimation problem for meanâfield models of large interacting financial systems such as the banking system and a pool of assets held by an institution or backing a security. We develop an asymptotic inference approach that addresses the scale and complexity of such systems. Harnessing the weak convergence results developed for meanâfield financial systems in the literature, we construct an approximate likelihood for large systems. The approximate likelihood has a conditionally Gaussian structure, enabling us to design an efficient numerical method for its evaluation. We provide a representation of the corresponding approximate estimator in terms of a weighted leastâsquares estimator, and use it to analyze the largeâsystem and largeâsample behavior of the estimator. Numerical results for a meanâfield model of systemic financial risk highlight the efficiency and accuracy of our estimator.