[R] Derivative of nonparametric curve

Mon Sep 14 12:19:12 CEST 2009

Thank you

----- Original Message ----
From: spencerg <spencer.graves at prodsyse.com>
To: "Liaw, Andy" <andy_liaw at merck.com>
Cc: Rolf Turner <r.turner at auckland.ac.nz>; FMH <kagba2006 at yahoo.com>; r-help at r-project.org
Sent: Wednesday, September 9, 2009 3:08:43 PM
Subject: Re: [R] Derivative of nonparametric curve

    This may be overkill for your application, but you might be interested in the "fda" package, for which a new book appeared a couple of months ago:  "Functional Data Analysis with R and Matlab" (Springer Use R! series, by Ramsay, Hooker and Graves;  I'm the third author).  The package includes a "scripts" subdirectory with R code to recreate all but one of the 76 figures in the book.  [To find this "scripts" directory, use "system.file('scripts', package='fda')".] 

    Functional data analysis generalizes spline smoothing in two important ways: 

          (1) It supports the use of an arbitrary finite basis set to approximate elements of a function space;  spline smoothing uses splines only, usually cubic splines.  The first derivative of a cubic spline is piecewise quadratic, and the second derivative is piecewise linear.  If you want something smoother than linear, you need at least a quartic spline, and Ramsay has recommended quintics -- degree 5 polynomials = order 6 spline. 

          (2) It allows the curve to be smoothed using an arbitrary linear differential operator, not just the second derivative.  This can be important if you have theory saying that the "truth" should follow a particular differential equation.  Otherwise, if you want to estimate the second derivative, Ramsay has recommended smoothing with the fourth derivative rather than the second.  (In any event, smoothing is achieved by penalized least squares with the penalty being proportional to the integral of the square of the chosen linear differential operator.) 

    To reinforce this second point, chapter 11 of "Functional Data Analysis with R and Matlab" describes "functional differential analysis", which will estimate non-constant coefficients in a differential equation model. 

    Hope this helps.      Spencer Graves

Liaw, Andy wrote:
> From: Rolf Turner
>  
>> On 8/09/2009, at 9:07 PM, FMH wrote:
>> 
>>    
>>> Dear All,
>>> 
>>> I'm looking for a way on computing the derivative of first and  second order of a smoothing curve produced by a nonprametric  regression. For instance, if we run the R script below, a smooth  nonparametric regression curve is produced.
>>> 
>>> provide.data(trawl)
>>> Zone92  <- (Year == 0 & Zone == 1)
>>> Position <- cbind(Longitude - 143, Latitude)
>>> dimnames(Position)[[2]][1] <- "Longitude - 143"
>>> sm.regression(Longitude, Score1, method = "aicc", col = "red",  model = "linear")
>>> 
>>> Could someone please give some hints on the way to find the  derivative on the curve at some points ?
>>>      
>> See
>> 
>>     ?smooth.spline
>> and
>>     ?predict.smooth.spline
>>    
> 
> Since sm.regression() (from the sm package, I presume) uses kernel
> methods, a kernel-based estimator of derivatives is available in the
> KernSmooth package.
> 
> Andy
>    
>>     cheers,
>> 
>>         Rolf Turner
>> 
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-- Spencer Graves, PE, PhD
President and Chief Operating Officer
Structure Inspection and Monitoring, Inc.
751 Emerson Ct.
San José, CA 95126
ph:  408-655-4567