cancel
Showing results for 
Search instead for 
Did you mean: 
cancel
Showing results for 
Search instead for 
Did you mean: 

Community Tip - Learn all about the Community Ranking System, a fun gamification element of the PTC Community. X

Multivariable Regression, Curve Fitting & Surface Plots

jroth
5-Regular Member

Multivariable Regression, Curve Fitting & Surface Plots

Hello,

 

I'm looking to reduce a dataset of 25 points to a surface curve fit.  An older program (and required to be used) generated the points in question.  Rather than spending many more hours on input the values, I was hoping to get a curve fit to the equations.  Two variables of distance (x) and elevation (y) provide and output of heatflux (Q).  I'm looking to essentially extrapolate the data into a large portion of points that will undergo more transformations pending the target geometry.

 

However, I'm unsure how to appropriately reduce the data.  There isn't any issue with generating a x^3 curve for more than 3 points of data (as I've done before), but I'm seeming to be inputing something incorrect into MathCAD for trying to reduce the data to an appropriate approximation.

 

In addition, if somebody knows a way to accomplish this task in excel, that would also be benificial (though I question if excel has that power built into it).

 

 

ACCEPTED SOLUTION

Accepted Solutions

Hi,

 

You mention 'extrapolation'.  For this you are best to get the equation of the surface.

This is an entirely different approach to the problem I have used professionally to determine the underlying mathematics on a surface in heating and cooling mills in plants. 

 

It involves determining the equation that matches the surface in one direction say the X direction.  Same equation but different coefficients at each  Y position.  Usually can be done with three coefficients in the equation.

 

Next you find an equations for the variation of these coefficients in terms of the Y direction.  Again only three coeffficients are necessary for each coefficient.

 

See mathcad sheet for how it is done.

 

 

Capture.JPG

View solution in original post

17 REPLIES 17
jroth
5-Regular Member
(To:jroth)

P.S., if anybody knows how to get multiple files uploaded that would also be great.  I keep getting a file 'type' being incorrect.  (Guess it doesn't like mcdx and xmcd files?) 

May be this will be any help forvyou

1-1[1].png

jroth
5-Regular Member
(To:ValeryOchkov)

I was able to utilize the 'solver' within excel to reduce to a local minimum based on a least squares approach (as compared to a chebeshev approach).  I've attached the file here for reference.  

 

(For some reason my work computer didn't solve this but I was able to get it solved on excel 2016 at my home computer).

Thanks for the kudo!

You can read more about this problem here

The chapter 1 from the book...

jroth
5-Regular Member
(To:ValeryOchkov)

This is helpful to reproduce the curved surface, but doesn't provide the coefficients for the equations.  I'm looking to grab the coefficients so they may also be entered into other programs.

 

However, this approach is great to grab data from a dataset or run feed a dataset to the function and get the resultant parameters out.  I would probably use this approach for the output from a user input where the data is some property table or other similar set.  

hi,

multiple files can be placed in a zip file then upload the zip file.

windows can do this.

 

cheers

terry

 

Hi,

First the zip file enclosed has two files, that is how you upload multiple files.

 

Mathcad is capable of creating a cubic spline surface through a number of points in 2D. A condition of this is same number of points in each direction. Supplied data has 5 rows and only four columns. It is necessary to create 5 evenly spaced points in the Y direction.

 

This can be done by fitting a cspline through each row of Q and interpolating the 5 evenly spaced Y points.

 

Once we have same number of data points in both X and Y direction can use the 2d version to interpolate the surface for a 2d point.

 

Values on the cspline surface can be found by 2d interpolation and one point is shown.

 

Cheers

Terry

 

 

Fred_Kohlhepp
23-Emerald I
(To:jroth)

In Prime 3.0

Multidimensional fitting in Mathcad 15:

multidfit.png 

Viktor
jroth
5-Regular Member
(To:Fred_Kohlhepp)

Fred,

 

For some reason when I input those values into the curve function into excel and compare those values to the ones put out by MathCAD, it seems to not pair up accuarately.  I've attached my spreadsheet for reference.  (I did expand to a xyy, xxy, xxx, yyy equation and the difference was minimal).

Hi,

to be complete need to answer if Excel can do it.

It can do linear interpolation in two directions.

 

http://www.engineerexcel.com/bilinear-interpolation-excel/

 

Cheers

Terry

Hi,

 

You mention 'extrapolation'.  For this you are best to get the equation of the surface.

This is an entirely different approach to the problem I have used professionally to determine the underlying mathematics on a surface in heating and cooling mills in plants. 

 

It involves determining the equation that matches the surface in one direction say the X direction.  Same equation but different coefficients at each  Y position.  Usually can be done with three coefficients in the equation.

 

Next you find an equations for the variation of these coefficients in terms of the Y direction.  Again only three coeffficients are necessary for each coefficient.

 

See mathcad sheet for how it is done.

 

 

Capture.JPG

jroth
5-Regular Member
(To:terryhendicott)

Thank you very much to everybody for the answers.  It makes sense and I'll be able to expand on the MathCAD documents and implement in excel (as needed) for value outputs.

 

I did alter the numbers I used to a format of:  Q = (a + b*x + c*x^2) + (d + e*x + f*x^2)*y + (g + h*x + i*x^2)*y^2  

The equation fits the original data with less than a 0.05% error, which is pretty good.

Hi,

one more approach.  In the original Excel sheet written at the bottom is a function for Y in terms of

seven coefficients c,a1,a2,a3,b1,b2,b3. in terms of x1 and  x2.

Y = c + a1*x1 + a2*x1^2 + a3^x1^3 + b1*x2 + b2*x2^2 + b3*x2^3.

It is possible to create seven equation to determine the seven coefficients.

The resulting surface is not as close as the previous post where the form of the equation is guessed as a fit to the data.

 

 

Regards

Terry

Hi,

Obtain a good fitting equation in both directions for the surface given to 0.02% or closer is enclosed.

 

Capture.JPG

Hi,

 

Here is the calculation of the surface in Excel using the formula found in MathCad

Announcements

Top Tags