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    Continuous record asymptotics for structural change models

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    Date Issued
    2019
    Author(s)
    Casini, Alessandro
    Perron, Pierre
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    Permanent Link
    https://hdl.handle.net/2144/39009
    Version
    First author draft
    Citation (published version)
    Alessandro Casini, Pierre Perron. 2019. "Continuous Record Asymptotics for Structural Change Models." Retrieved from: https://arxiv.org/abs/1803.10881
    Abstract
    For a partial structural change in a linear regression model with a single break, we develop a continuous record asymptotic framework to build inference methods for the break date. We have T observations with a sampling frequency h over a fixed time horizon [0, N] , and let T with h 0 while keeping the time span N fixed. We impose very mild regularity conditions on an underlying continuous-time model assumed to generate the data. We consider the least-squares estimate of the break date and establish consistency and convergence rate. We provide a limit theory for shrinking magnitudes of shifts and locally increasing variances. The asymptotic distribution corresponds to the location of the extremum of a function of the quadratic variation of the regressors and of a Gaussian centered martingale process over a certain time interval. We can account for the asymmetric informational content provided by the pre- and post-break regimes and show how the location of the break and shift magnitude are key ingredients in shaping the distribution. We consider a feasible version based on plug-in estimates, which provides a very good approximation to the finite sample distribution. We use the concept of Highest Density Region to construct confidence sets. Overall, our method is reliable and delivers accurate coverage probabilities and relatively short average length of the confidence sets. Importantly, it does so irrespective of the size of the break.
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