Direct spline interpolation of noisy data may result in a curve with
unwanted oscillations. This is particularly bad if the slope of the
curve is important.
A better approach is to reduce the degrees of freedom for the spline
and use the method of least squares to fit the spline to the noisy data.
The deegres of freedom are connected to the number of breaks (knots),
so the smoothing effect is controlled by the selection of breaks.
- A curve fitting tool based on B-splines
- Splines on ppform (piecewise polynomial)
- Any spline order (cubic splines by default)
- Periodic boundary conditions
- Linear constraints on function values and derivatives
- Robust fitting scheme
- Operates on ND arrays in the same way as SPLINE
- Nonuniform distributions of breaks
M-FILES ALSO INCLUDED:
examples - Examples for splinefit
ppdiff - Differentiate piecewise polynomial
ppint - Integrate piecewise polynomial
Needed to do a periodic fit on my data. Worked great!
It's really great! Thank you.
Exellent work! Thanks for sharing.
Example 6, robust fitting with outlier data is really nice
Can this be applied to 3D points x, y ,z and how? I noticed the examples are 2D.
Can you perhaps include a documentation (or reply to this comment) about how the robust weighting works? I would really appreciate that! Thank you so much in advance.
Thanks for Sharing!
It is amazing! It works perfectly and contains very clear examples. Thanks for sharing, you're awesome.
Nice! Thanks for sharing!
The usage is easy to understand, also the examples help a lot. Thanks!
here you can find lots of useful matlab examples and projects in electrical engineering:
Works excellent. Thanks!
Excellent. Huge time save. Thank you.
I have one question. The curve fitting use b spline. In the code, mkpp is used. Why not use spmak? the function will represent splines in b-form.
Very good fit of the smoothing line on my data. Good job
Exactly what I needed to generate prototypical data examples for presentation from noisy data.
how can i convert polynomial fitting into cubic splines
Thanks so much for the code. For my data works fine. Some questions though :
1. How can I retrieve the standard error (a posteriori sigma zero ) for the overall result?
2. How can I retrieve the standard errors (or Covariance matrix) for each coefficient
I need these std errors for evaluating the results.
It works well on my data. Thanks
Thanks for this useful code. It works really nice.
How I should write the constrains to have an slope = 0 or a given value. With that you think that i can avoid the overshoot?
well slope = 0 or a given value
thank you for your quick reply. It took me some time and help from people at my university (TU Delft), but I got it right now. I developed a script to do what I asked you for. It solves the polynomial in a different way, by using mldivide. It uses the fact that overdetermined matrices are solved by a least squares fit.
If you are interested, I could mail my script to you.
Maas, I admit that the splinebase function is a bit cryptic (also for the author). Unfortunatelly I can't see any quick fix to achieve the spline base you ask for.
Jonas, thank you for this wonderful script!
I am currently searching to minimize influence of different pieces (between the breaks) on one another. I want to have a high degree polynomial (10 and up) but only have the total piecewise polynomial differentiable up to 3rd or 4th order.
I think I only need to change a line or two in the splinebase function, but I wouldn't know which, since I do not understand the fine details of it, in spite the very crisp and clear code you wrote.
I'd really appreciate your help, thank you in advance.
Really nice piece of code.
Have a question though. Trying to use this to fit a curve to some 3D points and I have used the suggestion in http://www.mathworks.se/matlabcentral/answers/1717-3d-line-approximation-spline. However, I would like to find the appropriate x- and y-values for curve for given certain z-values. Any suggestions for how to do this?
The only thing that I can think of is to use 1D linear interpolation for the x- and y-values respectively based upon the z-values.
Michael, splinefit fits a picewise polynomial curve to your data set by least squares. In the cubic case the curve has continuous second derivative. In other cases the regularity will follow the order of the spline. This is achieved by a base of spline curves with minimal support (B-splines). The method is straightforward and I have no specific reference. You can study B-splines and the method of least squares in the textbooks.
The smoothing effect on the noisy data is controlled by the degrees of freedom of the curve, i.e. the number of pieces. A cubic spline with P pieces has P+3 degrees of freedom. If the number of data points is greater than P+3 smoothing will happen.
Splinefit has no support for a desired tolerance or standard deviation. You have to select the number of pieces, see what you get and try again OR write a clever code for the task.
You can find the theory behind csaps/spaps in the documentation.
I was wondering if you have any references to the method you use? How does it differ to the smoothing spline approach (csaps/spaps)?
Thanks to the author for such a beautiful piece of work.
I was wondering, how to achieve a monotonic spline? Any suggestions?
Works very well and includes excellent documentation and examples
Outstanding work with the splinefit function, this is exactely what i have been looking for. Very clean code and good documentation including the published examples.
I also like the ppdiff and the ppint function, how they work seamlessly with the standard piecewise functions.
This one certainly deserves a five star rating, congrats on the job
Dani, I have no plans for more extensions of splinefit. If you have the Optimization Toolbox you should try SLM.
Will it be possible in future versions to add monotonicity constrains to the spline?
Stefan, only equality constraints so far.
Vey nice tool! Is there also a possibility to enter non-equalities in the constraints?
eg= slope at certain points should be greater then 2
Gulcan, the smoothing spline is not intended to go through the knots/breaks. The curve fits to noisy data in the least square sense, also for knots. Use the constraint argument if you have exact data.
Example: If the curve must go through the points (0,5) and (2,3) use the constraint
con = struct('xc',[0 2],'yc',[5 3])
Really appreciate the work, thank you. I have a question though. Cubic spline does not go through all knots that I've selected. Is it related to some constraints that I forget to indicate?
Jonathan, SPLINEFIT is a curve fitting tool and deals with mappings from R to R^N. SPLINEFIT mimics SPLINE and the ND support can of course be replaced by a for-loop, but that will be less efficient.
If you are looking for a surface fitting tool i can recommend GRIDFIT by John D'Errico or SMOOTHN by Damien Garcia.
Splinefit works great for 1D data, and I see ND support, but it looks like this simply facilitates batch processing several sets of 1D data. Is it possible to use this to generate 2D (an higher dimensional) splines? If so, some examples would be great!
Sami, the robust fitting scheme uses weigthed regression where the weights are computed from previous residuals. It is close to the scheme described by John D'Errico in Optimization Tips and Tricks, section 33 (File ID: #8553).
The periodic condition forces endpoint derivatives to be equal. Example: A cubic spline with endpoints x=1 and x=4 (period length 3) satisfies the conditions y(1) = y(4), y'(1) = y'(4) and y"(1) = y"(4). This is perhaps not evident in the code where the B-splines at the endpoints are matched (pairwise) to have the same shape (and the same derivatives).
That's a very useful code. Can you please provide some references for the robust spline fit and the periodic condition options?
Useful...however, support for data containing NaNs would be helpful (spline interpolation using built-in MATLAB functions works fine for data containing NaNs)
Non-uniform distributions of breaks/knots is ok. No problem.
If point distribution is not homogeneous, probably the software have some problem in L.S. parametres solution.
How cai I use the software in a multiresolution field data?
Easy to use, does what it says, saves me a ton of work. Thanks.
Thank you very much - this code saved me a lot of time. Can you please send me references to the implemented method?
Works very good to fit noisy 1D data, saved me a lot of effort, thank you!
A very useful code in Matlab. I am wondering if anyone knows how to call this function from VC++?
A very useful code for cubic spline interpolation. Can you please give me the details of the method or any reference to read?
That's true Chaos. This code was not intended for image processing and the figure shouldn't contain any image noise. How did you do to apply the code to a noisy image?
for images, it's too slow, use better steepest descent. this figure isn't 'noisy' at all. try to pluck an image out of the 'dirt' where the SN is about 12dB
Good I guess.
Sorry, SPFIT don't support periodicity.
I am trying to generate a smooth curve through noisy data that is periodic at the ends. Can I use this code or is there a version that enforces periodicty
Thanks, this provides a simple method to put a smooth line through noisy data. You control the tightness by the number of break points.
this is a useful piece of code. It does exactly what it says it does. Much appreciated.
Required Products corrected.
Illustration of the recursive B-spline generation added (splinebase.png)
New contact info
Robust fitting parameter added.
Robust fitting scheme added. Support for data containing NaNs.
New version of SPLINEFIT based on B-splines.
Bug fix for SPLINEFIT. Two utilities added.
A faster routine for cubic splines added.
Update of examples in help.
New polynomial base eliminating half the unknowns.
Exact conditions added.
Generalization to piecewise polynomial splines of arbitrary order.
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