T O P I C R E V I E W |
koloditv |
Posted - 06/21/2004 : 05:21:00 AM Dear all, I wonder if you had any experience with NLSF curve fitting using a custom-defined function containing COMPLEX numbers i.e., i*i=-1? There is no problem to do it in MatLab, but how about Origin? I would really appreciate your help.
Taras |
3 L A T E S T R E P L I E S (Newest First) |
easwar |
Posted - 06/22/2004 : 5:40:57 PM Hi Taras,
It is possible to do what you want to do. Here is the procedure on (much simplified version) how to do it:
1> I presume you have data in two columns, say called w and R, in a worksheet - graph this data 2> With the graph active, bring up the NLSF tool using the menu command Analysis->Nonlinear Fitting
In the NLSF tool: 3> Select the menu item Function->New to start defining a new function 4> Give the function a name 5> Leave the Type drop-down as User-Defined 6> In "Parameter Names" edit box, enter parameter names of P0, w1, g1 Note: I am using only three parameters in this example - you need to expand this 7> For Indep Var, enter w 8> For Dependent Var, enter R 9> Make sure the "Use Origin C" checkbox below the edit box is checked 10> Click on the "Edit in Code Builder" button. This will open Code Builder with your fitting function in a window 11> Scroll all the way to the top of the fitting function text, and add an additional include file to the list of include files already there: #include <complex.h> 12> Scroll down to the "editable" part towards the end, and within the white editable area, enter the following lines of code:
complex epsilon = P0 * (w1 * w1 - w * w - g1 * 1i * w); R = cabs( ( sqrt(epsilon) - 1) / ( sqrt(epsilon) + 1 ) );
Note: To use i for creating compled numbers, you need to write this as "1i" like in the first line above. Abs function for complex numbers is cabs() 13> Click the Compile button - you should get no errors in the Code Builder output window 14> Click the "Return to NLSF" button to get back to Origin and NLSF 15> Click the Save button to save your function definition 16> Click the Fit button (after assigning datasets to w and R as necessary) and proceeed with your fit.
If you run into problems, please contact tech support with your data and your fitting function (FDF file). Please refer to this forum post in your message to them.
Easwar OriginLab
|
koloditv |
Posted - 06/21/2004 : 11:07:30 PM Dear Easwar, Yes, I have version 7.5 of Origin. I'm trying to fit an experimentally obtained far infrared reflection spectrum, R(w), where "w" is independent variable (i.e., frequency) to a model function, R, defined by:
R=abs((sqrt(epsilon)-1)/(sqrt(epsilon)+1)).
In its simplest form, "epsilon" is a complex number given by:
epsilon=P0*(wl1*wl1-w*w-gl1*i*w)*(wl2*wl2-w*w-gl2*i*w)*(wl3*wl3-w*w-gl3*i*w)/(wt1*wt1-w*w-gt1*i*w)*(wt2*wt2-w*w-gt2*i*w)*(wt3*wt3-w*w-gt3*i*w),
where PO, wl1..wl3, gl1..gl3, wt1..wt3, gt1..gt3 are adjustable parameters, and "i" indicates imaginary part of the complex number (e.g., i*i=-1).
I wonder how I can use Origin to fit my experimental data to the model R(w) function. Unfortunately, I'm not good at C programming. Any detailed advise would be appreciated. Thanks, Taras
|
easwar |
Posted - 06/21/2004 : 11:49:54 AM Dear Taras,
If you have version 7.0 or higher, you can define NLSF fitting functions that make use of Origin C code. Origin C supports complex arithmetic. However, the function needs to return a double for NLSF to fit.
Could you post more details of your function, and what exactly you want to fit? We could then provide more details, or come up with an example for you.
Easwar OriginLab
|
|
|