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I have the ctlns list and I am trying to produce some visualization of the data

ctlns<-list(structure(list(level = 10, x = c(0.101666666666667, 0.06, 
0.0385714285714286, 0.035, 0.035, 0.035, 0.04, 0.0433333333333333, 
0.05, 0.0516666666666667, 0.06, 0.0606416584402764, 0.0606416584402764, 
0.0766666666666667, 0.0766666666666667, 0.0933333333333333, 0.0933333333333333, 
0.0975, 0.11, 0.110956351152526, 0.110956351152526, 0.135, 0.135
), y = c(0.01, 0.04125, 0.06, 0.11, 0.16, 0.21, 0.26, 0.31, 0.36, 
0.41, 0.458123195380173, 0.46, 0.51, 0.56, 0.61, 0.66, 0.71, 
0.76, 0.808123195380173, 0.81, 0.86, 0.91, 0.96)), .Names = c("level", 
"x", "y")))

Then I,

 plot(ctlns[[1]]$x,ctlns[[1]]$y, xlim=c(0,.21), ylim=c(0,1), lwd=2, type="l", col="darkred" )

And I get the plot enter image description here

I would like to smooth the upper part of the red curve (y>0.2) while maintaining some of the curved structure (y<0.2)

lines(lowess(ctlns[[1]]$x,ctlns[[1]]$y,f=2/3), lwd=2, col="darkblue")

does a fine job for the former part but deletes the lower part of the curve. I have the following questions:

  1. Why does this happen that?
  2. How can I preserve and smooth the lower part of the red curve? Or maybe combine curves/smooth lines?
  3. Ignoring the red curve, how can I instruct lowess based on the blue curve data to extrapolate the values till y=0?

EDIT after discussion with agstudy

Because of of the curved nature of the red line, I was thinking what I need is probably a not a function smoothing y~x but rather a graph function that connects the points x, y with some kind of curved line. The points should be connected in order they appear within their vectors (x[1] with y[1] and so on...)

enter image description here

Is this possible?

share|improve this question
1  
Does lowess even work for double-valued functions? I'd be surprised if it did. Try swapping $x and $y , doing the fit, and then swapping back if desired. –  Carl Witthoft Jan 9 '13 at 14:03
    
Could you explain a bit more? –  ECII Jan 9 '13 at 14:09
1  
Well, do you know the definition of a function, and surjective/injective types? Take a look at the wikipedia page. My point is that, for your data, y=f(x) is not single-valued, while x=g(y) is. –  Carl Witthoft Jan 9 '13 at 15:40
    
You are correct. Please see revised edit –  ECII Jan 9 '13 at 15:41

2 Answers 2

up vote 3 down vote accepted

You probably want to use the xspline function (or grid.xspline if using grid graphics).

plot( ctlns[[1]], type='l', col='red' )
xspline( ctlns[[1]], shape=1, border='blue' )

You can do some pre smoothing of the data which might help some as well:

tmp.x <- ctlns[[1]]$x
tmp.y <- ctlns[[1]]$y

tmp <- cumsum( c(TRUE, head(tmp.x,-1) != tail(tmp.x,-1) ) )

tmp2.x <- tapply( tmp.x, tmp, mean )
tmp2.y <- tapply( tmp.y, tmp, mean )

xspline( tmp2.x, tmp2.y, shape=1, border='green' )

or using loess for the smoothing:

fit <- loess( tmp.y ~ tmp.x+tmp )
tmp3.y <- tapply( fitted(fit), tmp, mean )
xspline( tmp2.x, tmp3.y, shape=1, border='orange' )
share|improve this answer
    
This is fantastic! Thanks a lot. Is there any way to smooth the upper part (y>0.2) a bit more as to resemble a straight line? –  ECII Jan 10 '13 at 18:17
1  
@ECII, not easily using just xspline. I tried values of shape greater than 1 and some did smooth it a bit more, but there were also strange artifacts doing that (and the documentation says to only use values between -1 and 1). You can presmooth the data, see my edits above for one possibility. –  Greg Snow Jan 10 '13 at 18:43
    
Great. Thank you very much. Its exactly what I need. Do you mind explaining a bit your pre smoothing? –  ECII Jan 10 '13 at 19:00
1  
The tmp vector just captures when x values that are next to each other in the vector also have the same value. So we just take the mean of the y-values for duplicated x's (but only neighboring duplicates). –  Greg Snow Jan 10 '13 at 19:03

to answer part 2 of your question:

lines(lowess(ctlns[[1]]$x[ctlns[[1]]$y<0.2],
            ctlns[[1]]$y[ctlns[[1]]$y<0.2]), lwd=2, col="darkblue")

For the first part of your question , I guess that the algorithm is designed to work on function (mathematical defintion of the term) it removes the duplicates on x.

Edit after OP comment!

for me this is good , at least that I use LOESS function in an optimal manner. If you want to join all parts you create a small line for points that create problem.

 ids <- duplicated(ctlns[[1]]$x) & ctlns[[1]]$y < 0.25
 lines(ctlns[[1]]$x[ids],ctlns[[1]]$y[ids], lwd=4, col="darkblue")

enter image description here

share|improve this answer
    
dude, you have to check your answers before submitting. Your revised answer still does not work (problems with syntax) –  ECII Jan 9 '13 at 15:05
    
@ECII tahnks!fixed! –  agstudy Jan 9 '13 at 15:07
    
Sorry for being bit harse but this looks bad plot(ctlns[[1]]$x,ctlns[[1]]$y, xlim=c(0,.21), ylim=c(0,1), lwd=2, col="darkred" );lines(lowess(ctlns[[1]]$x,ctlns[[1]]$y,f=2/3), lwd=2, col="darkblue");lines(lowess(ctlns[[1]]$x[ctlns[[1]]$y<0.2], ctlns[[1]]$y[ctlns[[1]]$y<0.2]), lwd=2, col="darkblue");ids <- duplicated(ctlns[[1]]$x) & ctlns[[1]]$y < 0.25; lines(ctlns[[1]]$x[ids],ctlns[[1]]$y[ids], lwd=4, col="darkblue") –  ECII Jan 9 '13 at 15:11
    
No no problem .But looks bad is subjective, isn'it? –  agstudy Jan 9 '13 at 15:14
    
Bad is subjective. But I think you understand what I am looking for. Anyway thanks for your time and effort. –  ECII Jan 9 '13 at 15:17

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