created by erin hodgess, houston, texas section 9-5 multiple regression
TRANSCRIPT
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Created by Erin Hodgess, Houston, Texas
Section 9-5 Multiple Regression
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Multiple Regression
Definition Multiple Regression Equation
A linear relationship between a dependent
variable y and two or more independent
variables (x1, x2, x3 . . . , xk)
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Definition Multiple Regression Equation
A linear relationship between a dependent
variable y and two or more independent
variables (x1, x2, x3 . . . , xk)
y = b0 + b1x1 + b2x2 + . . . + bkxk ^
Multiple Regression
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y = b0 + b1 x1+ b2 x2+ b3 x3 +. . .+ bk xk(General form of the estimated multiple regression equation)
n = sample size
k = number of independent variables
y = predicted value of the dependent variable y
x1, x2, x3 . . . , xk are the independent
variables
^
^
Notation
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ß0 = the y-intercept, or the value of y when all of the predictor variables are 0
b0 = estimate of ß0 based on the sample data
ß1, ß2, ß3 . . . , ßk are the coefficients of
the independent variables x1, x2, x3 . . . , xk
b1, b2, b3 . . . , bk are the sample estimates of the
coefficients ß1, ß2, ß3 . . . , ßk
Notation
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AssumptionUse a statistical software package such as
STATDISK
Minitab
Excel
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Example: Bears
For reasons of safety, a study of bears involved the collection of various measurements that were taken after the bears were anesthetized. Using the data in Table 9-3, find the multiple regression equation in which the dependent variable is weight and the independent variables are head length and total overall length.
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Example: Bears
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Example: Bears
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Example: Bears
The regression equation is:
WEIGHT = –374 + 18.8 HEADLEN + 5.87 LENGTH
y = –374 + 18.8x3 + 5.87x6
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Adjusted R2
The multiple coefficient of determination is a measure of how well the multiple regression equation fits the sample data.
The Adjusted coefficient of determination
R2 is modified to account for the number of variables and the sample size.
Definitions
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Adjusted R2
Adjusted R2 = 1 – (n – 1)
[n – (k + 1)](1– R2)
Formula 9-6
where n = sample size
k = number of independent (x) variables
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Finding the Best MultipleRegression Equation
1. Use common sense and practical considerations to include or exclude variables.
2. Instead of including almost every available variable, include relatively few independent (x) variables, weeding out independent variables that don’t have an effect on the dependent variable.
3. Select an equation having a value of adjusted R2 with this property: If an additional independent variable is included, the value of adjusted R2 does not increase by a substantial amount.
4. For a given number of independent (x) variables, select the equation with the largest value of adjusted R2.
5. Select an equation having overall significance, as determined by the P-value in the computer display.