1 / 22

Econometrics Econ. 504

Econometrics Econ. 504. Chapter 4: The Nature of Regression Analysis. I. Understanding the Objectives of Regression Analysis. Econometrics techniques help making estimates about economic relationship. Economic Theory : i.e. Higher income leads to more consumption(Normal Goods).

choover
Télécharger la présentation

Econometrics Econ. 504

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. EconometricsEcon. 504 Chapter 4: The Nature of Regression Analysis

  2. I. Understanding the Objectives of Regression Analysis • Econometrics techniques help making estimates about economic relationship. • Economic Theory: i.e. Higher income leads to more consumption(Normal Goods). • Using Econometrics: Regression tells how much consumption rises for a given increase in income. • Thus, economic theory helps you form hypotheses about direction ( +/ -) of variables’ relationships, BUT econometrics (REGRESSION) assists you in estimating their direction ( +/ -), and magnitude (How big/small is the effect). • Remember in this course: Econometrics = Regression

  3. II. Model Specification • Econometrics is typically used for one of the following objectives: • Predicting or forecasting future events • Explaining how one or more variables affect some outcome of interest ( the dependent variable) • Regardless the differences among econometrics studies, the model specification (functional form) consists of selecting an outcome of interest ( Dependent Variable- labeled as Y) and one or more independent variables (labeled with Xs): Xs Y

  4. The econometrics model should be justified: • Be able to explain why it makes sense to think your dependent variable is caused by the independent variables you have selected. • You need to invest time explaining how independent variables are related to the outcome. • Remember: regression analysis identifies the direction (+/-) and magnitude (big/small)of the relationship

  5. III. Population Regression Function (PRF) • Before starting your regression analysis, you need to determine the PRF which identifies your perception of your topic of interest as the following setting: • General mathematical specification of your model Y= f (X1, X2, X3) • Derive the econometrics specification of your model E(Y\ X1, X2, X3 )= B0+B1X1 +B2 X2 +B3 X3 • Specify the random nature of your model Yi= B0+B1 X1i +B2X2i +B3X3i +ui

  6. General mathematical specification of your model Y= f (X1, X2, X3) • This function is called Population Regression Function (PRF). • Indicating the DV and IV. • Unless the nature of selecting the variables and their effects on the dependent variable is obvious, you should provide some justification for variables chosen and their functional form of specification.

  7. Derive the econometrics specification of your model E(Y\ X1, X2, X3 )= B0+B1X1 +B2 X2 +B3 X3 • Assuming linear model • The conditional mean E(Y\ X1, X2, X3 ) indicates that the relationship is expected to hold, on average, for given values of the independent variables.

  8. Specify the random nature of your model Yi= B0+B1 X1i +B2 X2i +B3 X3i +ui • This step clarifies that the relationship you’ve assumed in steps(1&2) holds on average but may contain errors (“u” term) when a specific observation is chosen at random from the population. • This is known as the stochastic Regression Function: Yi= B0+B1 X1i +B2 X2i +B3 X3i +ui Where: “i” = any randomly chosen observation(i=1,2,..,n) “u”= the stochastic ”random” error term associated with that observation

  9. Note : Why random error ?- it can resulted from one(more) of the following factors: • Insufficient or incorrectly measured data. • A lack of theoretical insights to fully account for all factors that affect the DV. • Applying an incorrect functional form. …. Others more

  10. Example: You have a population of 60 families, and their weekly income (X) & weekly consumption expenditure (Y). The 60 families are divided into 10 income groups:

  11. Figure: illustrating the Data Lets graph consumption values given income values ;

  12. What do you observe: • All data points are illustrating on the graph. • The dark big points represent the conditional means values ( 65, 77, 89, 101, 113,…….) • Connecting these conditional means values result in a line (or curve) called population regression line.

  13. Lets explain the regression; • ThePRF model: E(Y | Xi) = β1 + β2 Xi . • Theindícatedmodelis a linear (in theparameter) regressionmodel. • Linearity means the β’s are linear (that is, the parameters are raised to the first power only). • The stochastic version of the PRF as Yi= β1 +β2Xi+ui

  14. IV. Sample Regression Function (SRF) • However the last numerical example represents the population, not a sample. In reality in most practical situations what we have is a sampleof Y values corresponding to some fixed X’s. • Lets now pretend that the population was not known to us and the only information we had was a randomly selected sample of Y values for the fixed X’s. • Meaning, each Y (given Xi) is chosen randomly.

  15. Remember Again: • Sample vs. population: Technically, we can deal with data associated with a sample of Y values corresponding to some fixed X’s. • Sample Data: More simply, it is the regression of Y on X. The fact that we are dealing in this example with a sample of 60 families from the entire population that was not known. Of course, in reality a population may have many families ( more than 60 families). Thus here we deal with a Sample Regression Function. • Random data The only information we had was a randomly selected sample of Y values for the fixed X’s as given

  16. Specifically; We can develop the concept of the sample regression function (SRF) to represent the sample regression line (fitted regression line). The sample counterpart may be written as Yˆi= βˆ1 + βˆ2Xi where Yˆ is read as “Y-hat’’ or “Y-cap’’ Yˆi = estimator of E(Y | Xi) βˆ1 = estimator of β1 βˆ2 = estimator of β2 Note that an estimator, also known as a (sample) statistic, is simply a rule or formula or method that tells how to estimate the population parameter from the information provided by the sample at hand.

  17. Now; we can express the SRF in its stochastic form as follows: Yi = βˆ1 + βˆ2Xi +uˆi Where ˆuidenotes the (sample) residual term. Conceptually ˆuiis analogous to ui and can be regarded as an estimate of ui. It is introduced in the SRF for same reasons as ui was introduced in the PRF.

  18. To sum up; we find our primary objective in regression analysis is to estimate the PRF: Yi = β1 + β2Xi + ui on the basis of the SRF: Yi = βˆ1 + βˆ2Xi +uˆi

  19. Simple Calculations; PRF: Yi = β1 + β2Xi + ui SRF: 1-- Yi = βˆ1 + βˆ2Xi+uˆi 2-- Yˆi= βˆ1 + βˆ2Xi 1-- Yi= Yˆi+uˆi

  20. To conclude; the SRF is but an approximation of the PRF, Thus we need to devise a rule or a method that will make this approximation as “close” as possible!!! In other words, how should the SRF be constructed so that βˆ1 is as “close” as possible to the trueβ1and βˆ2 is as “close” as possible to the true β2. Remember that we will never know the true β1 and β2? Your goal is to get the better estimates for your data. However, this is can be done through a method called Ordinary Least Squares.

More Related