Modelling corporate defaults: A Markov-switching Poisson log-linear autoregressive model
This article extends the autoregressive count time series model class by allowing for a model with regimes, that is, some of the parameters in the model depend on the state of an unobserved Markov chain. We develop a quasi-maximum likelihood estimator by adapting the extended Hamilton-Grey algorithm for the Poisson log-linear autoregressive model, and we perform a simulation study to check the finite sample behaviour of the estimator. The motivation for the model comes from the study of corporate defaults, in particular the study of default clustering. We provide evidence that time series of counts of US monthly corporate defaults consists of two regimes and that the so-called contagion effect, that is current defaults affect the probability of other firms defaulting in the future, is present in one of these regimes, even after controlling for financial and economic covariates. We further find evidence for that the covariate effects are different in each of the two regimes. Our results imply that the notion of contagion in the default count process is time-dependent, and thus more dynamic than previously believed.
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