Chapter 15

Panel Data Models Chapter 15 Prepared by Vera Tabakova, East Carolina University

Chapter 15: Panel Data Models • 15.1 Grunfeld’s Investment Data • 15.2 Sets of Regression Equations • 15.3 Seemingly Unrelated Regressions • 15.4 The Fixed Effects Model • 15.4 The Random Effects Model Principles of Econometrics, 3rd Edition

Chapter 15: Panel Data Models The different types of panel data sets can be described as: • “long and narrow,” with “long” describing the time dimension and “narrow” implying a relatively small number of cross sectional units; • “short and wide,” indicating that there are many individuals observed over a relatively short period of time; • “long and wide,” indicating that both N and T are relatively large. Principles of Econometrics, 3rd Edition

15.1 Grunfeld’s Investment Data The data consist of T = 20 years of data (1935-1954) for N = 10 large firms. Let yit = INVit and x2it = Vit and x3it = Kit Principles of Econometrics, 3rd Edition

15.2 Sets of Regression Equations Principles of Econometrics, 3rd Edition

15.2 Sets of Regression Equations Assumption (15.5) says that the errors in both investment functions (i) have zero mean, (ii) are homoskedastic with constant variance, and (iii) are not correlated over time; autocorrelation does not exist. The two equations do have different error variances Principles of Econometrics, 3rd Edition

15.2 Sets of Regression Equations • Let Di be a dummy variable equal to 1 for the Westinghouse observations and 0 for the General Electric observations. Principles of Econometrics, 3rd Edition

15.3 Seemingly Unrelated Regressions This assumption says that the error terms in the two equations, at the same point in time, are correlated. This kind of correlation is called a contemporaneous correlation. Principles of Econometrics, 3rd Edition

15.3 Seemingly Unrelated Regressions Econometric software includes commands for SUR (or SURE) that carry out the following steps: • Estimate the equations separately using least squares; • Use the least squares residuals from step (i) to estimate ; • Use the estimates from step (ii) to estimate the two equations jointly within a generalized least squares framework. Principles of Econometrics, 3rd Edition

15.3 Seemingly Unrelated Regressions Principles of Econometrics, 3rd Edition

15.3.1 Separate or Joint Estimation? There are two situations where separate least squares estimation is just as good as the SUR technique : • when the equation errors are not contemporaneously correlated; • when the same explanatory variables appear in each equation. If the explanatory variables in each equation are different, then a test to see if the correlation between the errors is significantly different from zero is of interest. Principles of Econometrics, 3rd Edition

15.3.1 Separate or Joint Estimation? In this case Principles of Econometrics, 3rd Edition

15.3.1 Separate or Joint Estimation? Testing for correlated errors for two equations: LM = 10.628 > 3.84 Hence we reject the null hypothesis of no correlation between the errors and conclude that there are potential efficiency gains from estimating the two investment equations jointly using SUR. Principles of Econometrics, 3rd Edition

15.3.1 Separate or Joint Estimation? Testing for correlated errors for three equations: Principles of Econometrics, 3rd Edition

15.3.1 Separate or Joint Estimation? Testing for correlated errors for M equations: Under the null hypothesis that there are no contemporaneous correlations, this LM statistic has a χ2-distribution with M(M–1)/2 degrees of freedom, in large samples. Principles of Econometrics, 3rd Edition

15.3.2 Testing Cross-Equation Hypotheses Most econometric software will perform an F-test and/or a Wald χ2–test; in the context of SUR equations both tests are large sample approximate tests. The F-statistic has J numerator degrees of freedom and (MTK) denominator degrees of freedom, where J is the number of hypotheses, M is the number of equations, and K is the total number of coefficients in the whole system, and T is the number of time series observations per equation. The χ2-statistic has J degrees of freedom. Principles of Econometrics, 3rd Edition

15.4 The Fixed Effects Model We cannot consistently estimate the 3×N×T parameters in (15.9) with only NT total observations. Principles of Econometrics, 3rd Edition

15.4 The Fixed Effects Model All behavioral differences between individual firms and over time are captured by the intercept. Individual intercepts are included to “control” for these firm specific differences. Principles of Econometrics, 3rd Edition

15.4.1 A Dummy Variable Model This specification is sometimes called the least squares dummy variable model, or the fixed effects model. Principles of Econometrics, 3rd Edition

15.4.1 A Dummy Variable Model Principles of Econometrics, 3rd Edition

15.4.1 A Dummy Variable Model These N–1= 9 joint null hypotheses are tested using the usual F-test statistic. In the restricted model all the intercept parameters are equal. If we call their common value β1, then the restricted model is: Principles of Econometrics, 3rd Edition

15.4.1 A Dummy Variable Model Principles of Econometrics, 3rd Edition

15.4.1 A Dummy Variable Model We reject the null hypothesis that the intercept parameters for all firms are equal. We conclude that there are differences in firm intercepts, and that the data should not be pooled into a single model with a common intercept parameter. Principles of Econometrics, 3rd Edition

15.4.2 The Fixed Effects Estimator Principles of Econometrics, 3rd Edition

15.4.3 Fixed Effects Estimation Using a Microeconomic Panel Principles of Econometrics, 3rd Edition

15.5 The Random Effects Model Principles of Econometrics, 3rd Edition

15.5 The Random Effects Model Because the random effects regression error in (15.24) has two components, one for the individual and one for the regression, the random effects model is often called an error components model. Principles of Econometrics, 3rd Edition

15.5.1 Error Term Assumptions Principles of Econometrics, 3rd Edition

15.5.1 Error Term Assumptions There are several correlations that can be considered. • The correlation between two individuals, i and j, at the same point in time, t. The covariance for this case is given by Principles of Econometrics, 3rd Edition

15.5.1 Error Term Assumptions • The correlation between errors on the same individual (i) at different points in time, t and s. The covariance for this case is given by Principles of Econometrics, 3rd Edition

15.5.1 Error Term Assumptions • The correlation between errors for different individuals in different time periods. The covariance for this case is Principles of Econometrics, 3rd Edition

15.5.1 Error Term Assumptions Principles of Econometrics, 3rd Edition

15.5.2 Testing for Random Effects Principles of Econometrics, 3rd Edition

15.5.3 Estimation of the Random Effects Model Principles of Econometrics, 3rd Edition

15.5.4 An Example Using the NLS Data Principles of Econometrics, 3rd Edition

15.5.5a Endogeneity in the Random Effects Model If the random error is correlated with any of the right-hand side explanatory variables in a random effects model then the least squares and GLS estimators of the parameters are biased and inconsistent. Principles of Econometrics, 3rd Edition

15.5.5b The Fixed Effects Estimator in a Random Effects Model Principles of Econometrics, 3rd Edition

15.5.5c A Hausman Test We expect to find because Hausman proved that Principles of Econometrics, 3rd Edition

15.5.5c A Hausman Test The test statistic to the coefficient of SOUTH is: Using the standard 5% large sample critical value of 1.96, we reject the hypothesis that the estimators yield identical results. Our conclusion is that the random effects estimator is inconsistent, and we should use the fixed effects estimator, or we should attempt to improve the model specification. Principles of Econometrics, 3rd Edition

Keywords • Balanced panel • Breusch-Pagan test • Cluster corrected standard errors • Contemporaneous correlation • Endogeneity • Error components model • Fixed effects estimator • Fixed effects model • Hausman test • Heterogeneity • Least squares dummy variable model • LM test • Panel corrected standard errors • Pooled panel data regression • Pooled regression • Random effects estimator • Random effects model • Seemingly unrelated regressions • Unbalanced panel Principles of Econometrics, 3rd Edition

Chapter 15

Chapter 15

Presentation Transcript

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

CHAPTER 15

Chapter 15

Chapter 15

chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15:

Chapter 15-

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15

Chapter 15