The ENTROPY Procedure (Experimental)
- Overview
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Getting Started
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Syntax
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DetailsGeneralized Maximum EntropyGeneralized Cross EntropyMoment Generalized Maximum EntropyMaximum Entropy-Based Seemingly Unrelated RegressionGeneralized Maximum Entropy for Multinomial Discrete Choice ModelsCensored or Truncated Dependent VariablesInformation MeasuresParameter Covariance For GCEParameter Covariance For GCE-MStatistical TestsMissing ValuesInput Data SetsOutput Data SetsODS Table NamesODS Graphics
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Examples
- References
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Coleman, J. S., Campbell, E. Q., Hobson, C. J., McPartland, J., Mood, A. M., Weinfeld, F. D., and York, R. L. (1966), Equality of Educational Opportunity, Washington, DC: U.S. Government Printing Office.
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Deaton, A. and Muellbauer, J. (1980), “An Almost Ideal Demand System,” American Economic Review, 70, 312–326.
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Golan, A., Judge, G. G., and Miller, D. J. (1996), Maximum Entropy Econometrics: Robust Estimation with Limited Data, Chichester, UK: John Wiley & Sons.
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Golan, A., Judge, G. G., and Perloff, J. (1996), “A Generalized Maximum Entropy Approach to Recovering Information from Multinomial Response Data,” Journal of the American Statistical Association, 91, 841–853.
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Golan, A., Judge, G. G., and Perloff, J. (1997), “Estimation and Inference with Censored and Ordered Multinomial Response Data,” Journal of Econometrics, 79, 23–51.
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Golan, A., Judge, G. G., and Perloff, J. (2002), “Comparison of Maximum Entropy and Higher-Order Entropy Estimators,” Journal of Econometrics, 107, 195–211.
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Good, I. J. (1963), “Maximum Entropy for Hypothesis Formulation, Especially for Multidimensional Contingency Tables,” Annals of Mathematical Statistics, 34, 911–934.
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Harmon, A. M., Preckel, P., and Eales, J. (1998), Maximum Entropy-Based Seemingly Unrelated Regression, Master’s thesis, Purdue University.
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Jaynes, E. T. (1957), “Information of Theory and Statistical Mechanics,” Physics Review, 106, 620–630.
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Jaynes, E. T. (1963), “Information Theory and Statistical Mechanics,” in K. W. Ford, ed., Statistical Physics, volume 3 of Brandeis University Summer Institute/Lectures in Theoretical Physics, 181–218, New York: W. A. Benjamin.
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Kapur, J. N. and Kesavan, H. K. (1992), Entropy Optimization Principles with Applications, Boston: Academic Press.
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Kullback, J. (1959), Information Theory and Statistics, New York: John Wiley & Sons.
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Kullback, J. and Leibler, R. A. (1951), “On Information and Sufficiency,” Annals of Mathematical Statistics, 22, 79–86.
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LaMotte, L. R. (1994), “A Note on the Role of Independence in t Statistics Constructed from Linear Statistics in Regression Models,” American Statistician, 48, 238–240.
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Miller, D., Eales, J., and Preckel, P. (2003), “Quasi-maximum Likelihood Estimation with Bounded Symmetric Errors,” in T. B. Fomby and R. C. Hill, eds., Advances in Econometrics, volume 17, 133–148, Amsterdam: Elsevier Science.
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Mittelhammer, R. C. and Cardell, S. (2000), “The Data-Constrained GME Estimator of the GLM: Asymptotic Theory and Inference,” Working paper of the Department of Statistics, Washington State University, Pullman.
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Mittelhammer, R. C., Judge, G. G., and Miller, D. J. (2000), Econometric Foundations, Cambridge: Cambridge University Press.
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Myers, R. H. and Montgomery, D. C. (1995), Response Surface Methodology: Process and Product Optimization Using Designed Experiments, New York: John Wiley & Sons.
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Shannon, C. E. (1948), “A Mathematical Theory of Communication,” Bell System Technical Journal, 27, 379–423, 623–656.