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SUMMARYIn a recent paper, Bai and Perron (1998) considered theoretical issues related to the limiting distribution of estimators and test statistics in the linear model with multiple structural changes. In this companion paper, we consider practical issues for the empirical applications of the procedures. We first address the problem of estimation of the break dates and present an efficient algorithm to obtain global minimizers of the sum of squared residuals. This algorithm is based on the principle of dynamic programming and requires at most least-squares operations of order O T 2 for any number of breaks. Our method can be applied to both pure and partial structural change models. Second, we consider the problem of forming confidence intervals for the break dates under various hypotheses about the structure of the data and the errors across segments. Third, we address the issue of testing for structural changes under very general conditions on the data and the errors. Fourth, we address the issue of estimating the number of breaks. Finally, a few empirical applications are presented to illustrate the usefulness of the procedures. All methods discussed are implemented in a GAUSS program.

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Testing for a unit root in time series regression

Phillips

1988

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LAG Length Selection and the Construction of Unit Root Tests with Good Size and Power

2001

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It is widely known that when there are errors with a moving-average root close to −1, a high order augmented autoregression is necessary for unit root tests to have good size, but that information criteria such as the AIC and the BIC tend to select a truncation lag k that is very small. We consider a class of Modified Information Criteria (MIC) with a penalty factor that is sample dependent. It takes into account the fact that the bias in the sum of the autoregressive coefficients is highly dependent on k and adapts to the type of deterministic components present. We use a local asymptotic framework in which the moving-average root is local to −1 to document how the MIC performs better in selecting appropriate values of k. In Monte-Carlo experiments, the MIC is found to yield huge size improvements to the DF GLS and the feasible point optimal P T test developed in Elliott, Rothenberg, and Stock (1996). We also extend the M tests developed in Perron and Ng (1996) to allow for GLS detrending of the data. The MIC along with GLS detrended data yield a set of tests with desirable size and power properties.

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Further evidence on breaking trend functions in macroeconomic variables

Perron

1997

Journal of Econometrics

1,462

1,112

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Testing for a Unit Root in a Time Series With a Changing Mean

Perron

1990

Journal of Business & Economic Statistics

601

482

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Pierre Perron

The Great Crash, the Oil Price Shock, and the Unit Root Hypothesis

Estimating and Testing Linear Models with Multiple Structural Changes

Testing for a Unit Root in Time Series Regression

Computation and analysis of multiple structural change models

Testing for a unit root in time series regression

LAG Length Selection and the Construction of Unit Root Tests with Good Size and Power

Further evidence on breaking trend functions in macroeconomic variables

Testing for a Unit Root in a Time Series With a Changing Mean

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