Texas Instruments TI-89 ,

Appendix B: Technical Reference 936

This section describes how the statistical regressions are calculated.

Least-Squares Algorithm

Most of the regressions use non-linear recursive least-squares techniques to optimize

the following cost function, which is the sum of the squares of the residual errors:

where:residualExpression is in terms of xi and yi

xi is the independent variable list

yi is the dependent variable list

N is the dimension of the lists

This technique attempts to recursively estimate the constants in the model expression to

make J as small as possible.

For example, y=a sin(bx+c)+d is the model equation for SinReg. So its residual

expression is:

a sin(bxi+c)+d

“

For SinReg, therefore, the least-squares algorithm finds the constants a, b, c, and d that

minimize the function:

Regressions

Regression Description

CubicReg Uses the least-squares algorithm to fit the third-

order polynomial:

y=ax3+bx2+cx+d

For four data points, the equation is a polynomial

fit; for five or more, it is a polynomial regression. At

least four data points are required.

ExpReg Uses the least-squares algorithm and transformed

values x and ln(y) to fit the model equation:

y=abx

LinReg Uses the least-squares algorithm to fit the model

equation:

y=ax+b

where a is the slope and b is the y-intercept.

J residualExpression

∑

Jabxcdy

=++−

∑

sin

() 2