HP 49g+ User Manual

Page 18-59

If p = n-1,

X = V

n

.

If p < n-1, then remove columns p+2, …, n-1, n from

V

n

to form

X.

If p > n-1, then add columns n+1, …, p-1, p+1, to

V

n

to form matrix

X.

In step 3 from this list, we have to be aware that column i (i= n+1, n+2, …,
p+1) is the vector [x

1

i

x

2

i

… x

n

i

]. If we were to use a list of data values for x

rather than a vector, i.e.,

x = { x

1

x

2

… x

n

}, we can easily calculate the

sequence { x

1

i

x

2

i

… x

n

i

}. Then, we can transform this list into a vector and

use the COL menu to add those columns to the matrix

V

n

until

X is completed.

After

X is ready, and having the vector y available, the calculation of the

coefficient vector

b is the same as in multiple linear fitting (the previous matrix

application). Thus, we can write a program to calculate the polynomial fitting
that can take advantage of the program already developed for multiple linear
fitting. We need to add to this program the steps 1 through 3 listed above.

The algorithm for the program, therefore, can be written as follows:

Enter vectors

x and y, of the same dimension, as lists. (Note: since the

function VANDERMONDE uses a list as input, it is more convenient to enter
the (x,y) data as a list.) Also, enter the value of p.

• Determine n = size of vector x.
• Use the function VANDERMONDE to generate the Vandermonde

matrix

V

n

for the list

x entered.

• If p = n-1, then

X = V

n

,

Else If p < n-1

Remove columns p+2, …, n from

V

n

to form

X

(Use a FOR loop and COL-)

Else

Add columns n+1, …, p+1 to

V

n

to form

X

(FOR loop, calculate x

i

, convert to vector, use COL+)

• Convert y to vector
• Calculate b using program MTREG (see example on multiple linear

fitting above)