1 / 26

Econometrics

This course focuses on constructing, testing, and using econometric models, with a special emphasis on regression analysis. Topics covered include regression modeling, instrumental variables, and household utility maximization. The course also covers theoretical and statistical foundations of econometrics.

ono
Download Presentation

Econometrics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chengyaun yin School of Mathematics SHUFE Econometrics

  2. Based on the basic principle, we focus on constructing 、testing and using econometric models. Especially, we will spend much time to introduce regression analysis. And we will investigate regression modeling, generalized regression, instrument variables, estimate method, and so on.

  3. We will investigate the theory of household utility maximization over consumption and leisure. The model of utility maximization produces a demand for leisure time that translates into a supply function of labor. When home production is considered in the calculus ,then desired “hours” of the formal labor can be negative.

  4. Econometrics 1. The Paradigm of Econometrics

  5. Keyne’s Consumption function Let X be a level of income Let C be the expenditure on consumption out of the level of income Let f be a relation

  6. Econometrics: Paradigm • Theoretical foundations • Microeconometrics and macroeconometrics • Behavioral modeling: Optimization, labor supply, demand equations, etc. • Statistical foundations • Mathematical Elements • ‘Model’ building – the econometric model • Mathematical elements • The underlying truth – is there one? • What is ‘bias’ in model estimation?

  7. Why Use This Framework? • Understanding covariation • Understanding the relationship: • Estimation of quantities of interest such as elasticities • Prediction of the outcome of interest • Controlling future outcomes using knowledge of relationships

  8. Measurement as Observation Population Measurement Theory Characteristics Behavior Patterns Choices

  9. Inference Population Measurement Econometrics Characteristics Behavior Patterns Choices

  10. Model Building in Econometrics • Role of the assumptions • Sharpness of inferences • Parameterizing the model • Nonparametric analysis • Semiparametric analysis • Parametric analysis • Application: Is there a relationship between investment and capital stock? (10 firms, 20 years)

  11. Nonparametric Regression What are the assumptions? What are the conclusions?

  12. Semiparametric Regression • Investmenti,t = a + b*Capitali,t + ui,t • Median[ui,t | Capitali,t] = 0

  13. Parametric Regression • Investmenti,t = a + b*Capitali,t + ui,t • ui,t | Capitalj,s ~ N[0,2] for all i,j,s,t

  14. Estimation Platforms • The “best use” of a body of data • The accretion of knowledge • Model based • Kernels and smoothing methods (nonparametric) • Moments and quantiles (semiparametric) • Likelihood and M- estimators (parametric) • Methodology based (?) • Classical – parametric and semiparametric • Bayesian – strongly parametric

  15. Classical Inference Population Measurement Econometrics Characteristics Behavior Patterns Choices Imprecise inference about the entire population – sampling theory and asymptotics

  16. Bayesian Inference Population Measurement Econometrics Characteristics Behavior Patterns Choices Sharp, ‘exact’ inference about only the sample – the ‘posterior’ density.

  17. Empirical Research • Iterative search for information about the structure • Specification searches • Stepwise modeling, data mining, etc. • Leamer on specification searching and significance levels • Judge, et al. on sequential inference and pretesting • Hendry on the encompassing principle – “general to specific” • Classical estimation and inference

  18. Data Structures • Observation mechanisms • Passive, nonexperimental • Active, experimental • The ‘natural experiment’ • Data types • Cross section • Pure time series • Panel – longitudinal data • Financial data

  19. Econometric Models • Linear; static and dynamic • Discrete choice • Censoring and truncation • Structural models and demand systems

  20. Estimation Methods and Applications • Least squares etc. – OLS, GLS, LAD, quantile • Maximum likelihood • Formal ML • Maximum simulated likelihood • Robust and M- estimation • Instrumental variables and GMM • Bayesian estimation – Markov Chain Monte Carlo methods

  21. Trends in Econometrics • Small structural models vs. large scale multiple equation models • Parametric vs. non- and semiparametric methods • Robust methods – GMM (paradigm shift?) • Unit roots, cointegration and macroeconometrics • Nonlinear modeling and the role of software • Behavioral and structural modeling vs. “covariance analysis” – pervasiveness of the econometrics paradigm

  22. Course Objective Develop the tools needed to read about with understanding and to do empirical research in economics using the current body of techniques.

  23. Prerequisites • A previous course that used regression • Mathematical statistics • Matrix algebra We will do some proofs and derivations We will also examine empirical applications

  24. The Course Outline • Topics • Sequence • Timing No class on: Tuesday September 30 Thursday, October 9 Thursday, November 27

  25. Readings • Main text: Greene, W., Econometric Analysis, 6th Edition, Prentice Hall, 2008. • A few articles • Notes on the course website: http://www.stern.nyu.edu/~wgreene/Econometrics /Econometrics.htm

  26. Course Applications • Software • LIMDEP/NLOGIT provided, supported • SAS, Stata optional, your choice • Gauss, Matlab, others • Lab sessions: Fridays? To be determined • Problem sets • Software • Questions and review as requested • Term Paper – Application (more details later)

More Related