Anon

(Dana P.) #1

Multiple Linear Regression 59


case. Note also that the estimated value of the regression coefficients are
not much different than in the univariate case. As for our new indepen-
dent variable, x 2 , we see that it is statistically significant at the 1% level
of significance for all three asset indexes. While we can perform statistical
tests discussed earlier for the contribution of adding the new indepen-
dent variable, the contribution of the two stock sectors to explaining the
movement in the return in the sector indexes is clearly significant. The R^2
for the electric utility sector increased from around 7% in the univariate
case to 13% in the multiple linear regression case. The increase was obvi-
ously more dramatic for the commercial bank sector, the R^2 increasing
from 1% to 49%.
Next we analyze the regression of the Lehman U.S. Aggregate Bond
Index. Using only one independent variable, we have R 12 = 91.77%. If we
include the additional independent variable, we obtain the improved R^2 =
93.12%. For the augmented regression, we compute with n = 170 and k =
2 the adjusted R^2 as


()

()

=−−


−−







=−−


−−







=

RR

n
nk

11

1

1

11 0.9312

170 1

170 21

0.9304

adj

22

Let’s apply the F-test to the Lehman U.S. Aggregate Bond Index to
see if the addition of the new independent variable increasing the R^2 from
91.77% to 93.12% is statistically significant.
From equation (3.18), we have


=



−−

=



−−

F =

RR

R

nk

1

1

0.9312 0.9177

10.9312

170 21

1 32.7689

2
1

2
2

This value is highly significant with a p-value of virtually zero. Hence,
the inclusion of the additional variable is statistically reasonable.


Predicting the 10-Year Treasury Yield^12


The U.S. Treasury securities market is the world’s most liquid bond mar-
ket. The U.S. Department of the Treasury issues two types of securities:


(^12) We are grateful to Robert Scott of the Bank for International Settlements for sug-
gesting this example and for providing the data.

Free download pdf