[R] Obtain gradient at multiple values for exponential decay model

Fri Apr 6 20:25:16 CEST 2018

> On Apr 6, 2018, at 8:15 AM, David Winsemius <dwinsemius using comcast.net> wrote:
> 
>> 
>> On Apr 6, 2018, at 8:03 AM, David Winsemius <dwinsemius using comcast.net> wrote:
>> 
>> 
>>> On Apr 6, 2018, at 3:43 AM, g l <gnulinux using gmx.com> wrote:
>>> 
>>>> Sent: Friday, April 06, 2018 at 5:55 AM
>>>> From: "David Winsemius" <dwinsemius using comcast.net>
>>>> 
>>>> 
>>>> Not correct. You already have `predict`. It is capale of using the `newdata` values to do interpolation with the values of the coefficients in the model. See: 
>>>> 
>>>> ?predict
>>>> 
>>> 
>>> The § details did not mention interpolation explicity; thanks.
>>> 
>>>> The original question asked for a derivative (i.e. a "gradient"), but so far it's not clear that you understand the mathematical definiton of that term. We also remain unclear whether this is homework.
>>>> 
>>> 
>>> The motivation of this post was simple differentiation of a tangent point (dy/dx) manually, then wondering how to re-think in modern-day computing terms. Hence the original question about asking the appropriate functions/syntax to read further ("curiosity"), not the answer (indeed, "homework"). :)
>>> 
>>> Personal curiosity should be considered "homework".
>> 
>> Besides symbolic differentiation, there is also the option of numeric differentiation. Here's an amateurish attempt:
>> 
>> myNumDeriv <- function(x){ (exp( predict (graphmodeld, newdata=data.frame(t=x+.0001))) - 
>>                                           exp( predict (graphmodeld, newdata=data.frame(t=x) )))/
>>                                         .0001 }
>> myNumDeriv(c(100, 250, 350))
> 
> I realized that this would not work in the context of your construction. I had earlier made a more symbolic version using R formulae:
> 
> graphdata<-read.csv(text='t,c
> 0,100
> 40,78
> 80,59
> 120,38
> 160,25
> 200,21
> 240,16
> 280,12
> 320,10
> 360,9
> 400,7')
> graphmodeld<-lm(log(c)~t, graphdata)
> graphmodelp<-exp(predict(graphmodeld))
> plot(c~t, graphdata)
> lines(graphdata[,1],graphmodelp)

Again I attempt to correct my incomplete code with this definition that had be modified to take a model object as its second argument:

myNumDeriv <- function(x, mod) (exp( predict (mod, newdata=data.frame(t=x+.0001))) - exp( predict (mod, newdata=data.frame(t=x) )))/.0001

> myNumDeriv(c(100, 250, 350), graphmodeld )
> #----------------------------------------------
>          1           2           3 
> -0.31464102 -0.11310753 -0.05718414 
> 
> 
>> 
>> 
>> 
>> David Winsemius
>> Alameda, CA, USA
>> 
>> 'Any technology distinguishable from magic is insufficiently advanced.'   -Gehm's Corollary to Clarke's Third Law
>> 
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>> and provide commented, minimal, self-contained, reproducible code.
> 
> David Winsemius
> Alameda, CA, USA
> 
> 'Any technology distinguishable from magic is insufficiently advanced.'   -Gehm's Corollary to Clarke's Third Law
> 
> ______________________________________________
> R-help using r-project.org mailing list -- To UNSUBSCRIBE and more, see
> https://stat.ethz.ch/mailman/listinfo/r-help
> PLEASE do read the posting guide http://www.R-project.org/posting-guide.html
> and provide commented, minimal, self-contained, reproducible code.

David Winsemius
Alameda, CA, USA

'Any technology distinguishable from magic is insufficiently advanced.'   -Gehm's Corollary to Clarke's Third Law