1 This sequence shows why OLS is likely to yield inconsistent estimates in models composed of two or more simultaneous relationships. SIMULTANEOUS EQUATIONS.

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Presentation transcript:

1 This sequence shows why OLS is likely to yield inconsistent estimates in models composed of two or more simultaneous relationships. SIMULTANEOUS EQUATIONS BIAS

2 In this example we suppose that we have data on p, the annual rate of price inflation, w, the annual rate of wage inflation, and U, the rate of unemployment, for a sample of countries. SIMULTANEOUS EQUATIONS BIAS

3 We hypothesize that increases in wages lead to increases in prices and so p is positively influenced by w (  2 > 0). SIMULTANEOUS EQUATIONS BIAS

4 We also suppose that workers try to protect their real wages by negotiating for increases in wages as prices rise, but their ability to so is the weaker, the greater is the rate of unemployment (  2 > 0,  3 < 0). SIMULTANEOUS EQUATIONS BIAS

5 The model involves some circularity, in that w is a determinant of p, and p is a determinant of w. Variables whose values are determined interactively within the model are described as endogenous variables. SIMULTANEOUS EQUATIONS BIAS endogenous: p, w

6 We will cut through the circularity by expressing p and w in terms of their ultimate determinants, U and the disturbance terms u p and u w. Variables such as U whose values are determined outside the model are described as exogenous variables. SIMULTANEOUS EQUATIONS BIAS exogenous: U endogenous: p, w

7 We will start with p. The first step is to substitute for w from the second equation. SIMULTANEOUS EQUATIONS BIAS

8 We bring the terms involving p together on the left side of the equation and thus express p in terms of U, u p, and u w. SIMULTANEOUS EQUATIONS BIAS

9 Next we take the equation for w and substitute for p from the first equation. SIMULTANEOUS EQUATIONS BIAS

10 We bring the terms involving w together on the left side of the equation and thus express w in terms of U, u p, and u w. SIMULTANEOUS EQUATIONS BIAS

structural equations 11 The original equations, representing the economic relationships among the variables, are described as the structural equations. SIMULTANEOUS EQUATIONS BIAS

reduced form equation structural equations 12 The equations expressing the endogenous variables in terms of the exogenous variable(s) and the disturbance terms are described as the reduced form equations. SIMULTANEOUS EQUATIONS BIAS

13 The reduced form equations have two important roles. They can indicate that we have a serious econometric problem, but they may also provide a solution to it. SIMULTANEOUS EQUATIONS BIAS reduced form equation structural equations

structural equations reduced form equation 14 The problem is the violation of Assumption B.7 that the disturbance term be distributed independently of the explanatory variable(s). In the first equation, w has a component u p. OLS would therefore yield inconsistent estimates if used to fit the equation. SIMULTANEOUS EQUATIONS BIAS

reduced form equation structural equations Likewise, in the second equation, p has a component u w. 15 SIMULTANEOUS EQUATIONS BIAS

16 We will investigate the sign of the bias in the slope coefficient if OLS is used to fit the price inflation equation. SIMULTANEOUS EQUATIONS BIAS structural equations

17 As usual we start by substituting for the dependent variable using the true model. For this purpose, we could use either the structural equation or the reduced form equation for p. SIMULTANEOUS EQUATIONS BIAS structural equations reduced form equation

structural equations 18 The algebra is simpler if we use the structural equation. SIMULTANEOUS EQUATIONS BIAS reduced form equation

structural equations The  1 terms cancel. We rearrange the rest of the second factor in the numerator. 19 SIMULTANEOUS EQUATIONS BIAS

Hence we obtain the usual decomposition into true value and error term. 20 SIMULTANEOUS EQUATIONS BIAS structural equations

21 We will now investigate the properties of the error term. Of course, we would like it to have expected value 0, making the estimator unbiased. SIMULTANEOUS EQUATIONS BIAS structural equations

22 However, the error term is a nonlinear function of both u p and u w because both are components of w. As a consequence, it is not possible to obtain a closed-form analytical expression for its expected value. SIMULTANEOUS EQUATIONS BIAS structural equations reduced form equation

23 We will investigate the large-sample properties instead. We will demonstrate that the estimator is inconsistent, and this will imply that it has undesirable finite-sample properties. SIMULTANEOUS EQUATIONS BIAS structural equations

24 We focus on the error term. We would like to use the plim quotient rule. The plim of a quotient is the plim of the numerator divided by the plim of the denominator, provided that both of these limits exist. SIMULTANEOUS EQUATIONS BIAS structural equations if A and B have probability limits and plim B is not 0.

structural equations if A and B have probability limits and plim B is not However, as the expression stands, the numerator and the denominator of the error term do not have limits. The denominator increases indefinitely as the sample size increases. The nominator has no particular limit. SIMULTANEOUS EQUATIONS BIAS

structural equations 26 To deal with this problem, we divide both the numerator and the denominator by n. SIMULTANEOUS EQUATIONS BIAS if A and B have probability limits and plim B is not 0.

27 It can be shown that the limit of the numerator is the covariance of w and u p and the limit of the denominator is the variance of w. SIMULTANEOUS EQUATIONS BIAS structural equations

28 Hence the numerator and the denominator of the error term have limits and we are entitled to implement the plim quotient rule. We need var(w) to be non-zero, but this will be the case assuming that there is some variation in w. SIMULTANEOUS EQUATIONS BIAS structural equations

structural equations 29 We will now derive the limiting value of the numerator. The first step is to substitute for w from its reduced form equation. (Note: Here we must use the reduced form equation. If we use the structural equation, we will find ourselves going round in circles.) SIMULTANEOUS EQUATIONS BIAS reduced form equation

30 We use Covariance Rule 1 to decompose the expression. SIMULTANEOUS EQUATIONS BIAS structural equations

The first term is 0 because (  1 +  2  1 ) is a constant. The second term is 0 because U is exogenous and so distributed independently of u p 31 SIMULTANEOUS EQUATIONS BIAS structural equations

The fourth term is 0 if the disturbance terms are distributed independently of each other. This is not necessarily the case but, for simplicity, we will assume it to be true. 32 SIMULTANEOUS EQUATIONS BIAS structural equations

33 However, the third term is nonzero because the limiting value of a sample variance is the corresponding population variance. SIMULTANEOUS EQUATIONS BIAS structural equations

34 If we were interested in obtaining an explicit mathematical expression for the large-sample bias, we would decompose var(w) in the same way, substituting for w from the reduced form, expanding, and then simplifying as best we can. SIMULTANEOUS EQUATIONS BIAS reduced form equation structural equations

35 However, usually we are content with determining the sign of the large sample bias, if we can. Since variances are always positive, the sign of the bias will depend on the sign of cov(u p,w). SIMULTANEOUS EQUATIONS BIAS structural equations

36 The sign of the bias will depend on the sign of the term (1 –  2  2 ), since  2 must be positive and the variance components are positive. SIMULTANEOUS EQUATIONS BIAS structural equations

37 Looking at the reduced form equation for w, w should be a decreasing function of U.  3 should be negative. So (1 –  2  2 ) must be positive. We conclude that, in this particular case, the large-sample bias is positive. SIMULTANEOUS EQUATIONS BIAS reduced form equation structural equations

38 In fact, (1 –  2  2 ) being positive is a condition for the existence of equilibrium in this model. Suppose that the exogenous variable U changed by an amount  U. The immediate effect on w would be to change it by  3  U (in the opposite direction, since  3 < 0). SIMULTANEOUS EQUATIONS BIAS structural equations

39 This would cause p to change by  2  3  U. SIMULTANEOUS EQUATIONS BIAS structural equations

40 This would cause a secondary change in w equal to  2  2  3  U. SIMULTANEOUS EQUATIONS BIAS structural equations

41 This in turn would cause p to change by a secondary amount  2  2  3  U. 2 SIMULTANEOUS EQUATIONS BIAS structural equations

42 This would cause w to change by a further amount  2  2  3  U. 22 SIMULTANEOUS EQUATIONS BIAS structural equations

43 And so on and so forth. The total change will be finite only if  2  2 < 1. Otherwise the process would be explosive, which is implausible. SIMULTANEOUS EQUATIONS BIAS structural equations

44 Either way, we have demonstrated that 1 –  2  2 > 0 and hence that, in this case, the bias is positive. Note that one cannot generalize about the direction of simultaneous equations bias. It depends on the structure of the model. SIMULTANEOUS EQUATIONS BIAS structural equations

Copyright Christopher Dougherty These slideshows may be downloaded by anyone, anywhere for personal use. Subject to respect for copyright and, where appropriate, attribution, they may be used as a resource for teaching an econometrics course. There is no need to refer to the author. The content of this slideshow comes from Section 9.2 of C. Dougherty, Introduction to Econometrics, fourth edition 2011, Oxford University Press. Additional (free) resources for both students and instructors may be downloaded from the OUP Online Resource Centre Individuals studying econometrics on their own who feel that they might benefit from participation in a formal course should consider the London School of Economics summer school course EC212 Introduction to Econometrics or the University of London International Programmes distance learning course EC2020 Elements of Econometrics