Topics in Microeconometrics
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Topics in Microeconometrics
William GreeneDepartment of EconomicsStern School of Business
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Descriptive Statistics and Linear Regression
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Model Building in Econometrics
• Parameterizing the model• Nonparametric analysis• Semiparametric analysis• Parametric analysis
• Sharpness of inferences follows from the strength of the assumptions
A Model Relating (Log)Wage to Gender and Experience
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Nonparametric RegressionKernel regression of y on x
Semiparametric Regression: Least absolute deviations regression of y on x
Parametric Regression: Least squares – maximum likelihood – regression of y on x
Application: Is there a relationship between investment and capital stock?
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Cornwell and Rupert Panel DataCornwell and Rupert Returns to Schooling Data, 595 Individuals, 7 YearsVariables in the file areEXP = work experienceWKS = weeks workedOCC = occupation, 1 if blue collar, IND = 1 if manufacturing industrySOUTH = 1 if resides in southSMSA = 1 if resides in a city (SMSA)MS = 1 if marriedFEM = 1 if femaleUNION = 1 if wage set by union contractED = years of educationBLK = 1 if individual is blackLWAGE = log of wage = dependent variable in regressionsThese data were analyzed in Cornwell, C. and Rupert, P., "Efficient Estimation with Panel Data: An Empirical Comparison of Instrumental Variable Estimators," Journal of Applied Econometrics, 3, 1988, pp. 149-155. See Baltagi, page 122 for further analysis. The data were downloaded from the website for Baltagi's text.
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A First Look at the DataDescriptive Statistics
• Basic Measures of Location and Dispersion
• Graphical Devices• Histogram• Kernel Density Estimator
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Histogram for LWAGE
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The kernel density estimator is ahistogram (of sorts).
n i mm mi 1
** *x x1 1f̂(x ) K , for a set of points x
n B B
B "bandwidth" chosen by the analystK the kernel function, such as the normal or logistic pdf (or one of several others)x* the point at which the density is approximated.This is essentially a histogram with small bins.
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Kernel Estimator for LWAGE
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Kernel Density Estimator
n i mm mi 1
** *x x1 1f̂(x ) K , for a set of points x
n B B
B "bandwidth"K the kernel functionx* the point at which the density is approximated.
f̂(x*) is an estimator of f(x*)1
The curse of dimensionality
nii 1
3/5
Q(x | x*) Q(x*). n
1 1But, Var[Q(x*)] Something. Rather, Var[Q(x*)] * somethingN N
ˆI.e.,f(x*) does not converge to f(x*) at the same rate as a meanconverges to a population mean.
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Objective: Impact of Education on (log) wage
• Specification: What is the right model to use to analyze this association?
• Estimation• Inference• Analysis
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Simple Linear RegressionLWAGE = 5.8388 + 0.0652*ED
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Multiple Regression
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Specification: Quadratic Effect of Experience
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Partial Effects
Education: .05544Experience: .04062 – 2*.00068*ExpFEM – .37522
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Model Implication: Effect of Experience and Male vs. Female
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Hypothesis Test About Coefficients• Hypothesis
• Null: Restriction on β: Rβ – q = 0• Alternative: Not the null
• Approaches• Fitting Criterion: R2 decrease under the null?• Wald: Rb – q close to 0 under the
alternative?
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Hypotheses
All Coefficients = 0?R = [ 0 | I ] q = [0]
ED Coefficient = 0?R = 0,1,0,0,0,0,0,0,0,0,0,0q = 0
No Experience effect?R = 0,0,1,0,0,0,0,0,0,0,0,0 0,0,0,1,0,0,0,0,0,0,0,0q = 0 0
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Hypothesis Test Statistics
2
2 21 0
121 1
Subscript 0 = the model under the null hypothesisSubscript 1 = the model under the alternative hypothesis
1. Based on the Fitting Criterion R
(R -R ) / J F = =F[J,N-K ]
(1-R ) / (N-K )
2. Bas
-12 -1
1 1
ed on the Wald Distance : Note, for linear models, W = JF.
Chi Squared = ( - ) s ( ) ( - )Rb q R X X R Rb q
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Hypothesis: All Coefficients Equal Zero
All Coefficients = 0?R = [0 | I] q = [0]R1
2 = .42645R0
2 = .00000F = 280.7 with [11,4153]Wald = b2-12[V2-12]-1b2-12
= 3087.83355Note that Wald = JF = 11(280.7)
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Hypothesis: Education Effect = 0
ED Coefficient = 0?R = 0,1,0,0,0,0,0,0,0,0,0,0q = 0R1
2 = .42645R0
2 = .36355 (not shown)F = 455.396Wald = (.05544-0)2/(.0026)2
= 455.396Note F = t2 and Wald = FFor a single hypothesis about 1 coefficient.
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Hypothesis: Experience Effect = 0No Experience effect?R = 0,0,1,0,0,0,0,0,0,0,0,0 0,0,0,1,0,0,0,0,0,0,0,0q = 0 0R0
2 = .34101, R12 = .42645
F = 309.33Wald = 618.601 (W* = 5.99)
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A Robust Covariance Matrix
• What does robustness mean?• Robust to:
• Heteroscedasticty• Not robust to:
• Autocorrelation• Individual heterogeneity• The wrong model specification
• ‘Robust inference’
-1 2 -1i i ii
The White Estimator
Est.Var[ ] = ( ) e ( )b X X x x X X
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Robust Covariance Matrix
Heteroscedasticity Robust Covariance Matrix