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I'm trying to draw a smooth curve in R. I have the following simple toy data:

> x
 [1]  1  2  3  4  5  6  7  8  9 10
> y
 [1]  2  4  6  8  7 12 14 16 18 20

Now when I plot it with a standard command it looks bumpy and edgy, of course:

plot(x,y, type='l', lwd=2, col='red')

How can I make the curve smooth so that the 3 edges are rounded using estimated values? I know there are many methods to fit a smooth curve but I'm not sure which one would be most appropriate for this type of curve and how you would write it in R.

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It entirely depends on what your data is and why you're smoothing it! Are the data counts? Densities? Measurements? What sort of measurement error might there be? What story are you trying to tell your readers with your graph? All of these issues affect whether and how you should smooth your data. – Harlan Aug 13 '10 at 20:28
These are measured data. At x values 1, 2, 3, ..., 10 some system made 2, 4, 6, ..., 20 errors. These coordinates should probably not be changed by the fitting algorithm. But I want to simulate the errors (y) at the missing x values, for example in the data, f(4)=8 and f(5)=7, so presumably f(4.5) is something between 7 and 8, using some polynomial or other smoothing. – Frank Aug 13 '10 at 20:35
In that case, with a single data point for each value of x, I wouldn't smooth at all. I'd just have big dots for my measured data points, with thin lines connecting them. Anything else suggests to the viewer that you know more about your data than you do. – Harlan Aug 13 '10 at 20:52
You may be right for this example. It's good to know how to do it though, and I might want to use it on some other data later, e.g. it makes sense if you have thousands of very spiky data points that kind of go up and down, but there is a general trend, for example going upward like here: plot(seq(1,100)+runif(100, 0,10), type='l'). – Frank Aug 13 '10 at 21:07
up vote 65 down vote accepted

I like loess() a lot for smoothing:

x <- 1:10
y <- c(2,4,6,8,7,12,14,16,18,20)
lo <- loess(y~x)
lines(predict(lo), col='red', lwd=2)

Venables and Ripley's MASS book has an entire section on smoothing that also covers splines and polynomials -- but loess() is just about everybody's favourite.

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How do you apply it to this data? I'm not sure how because it expects a formula. Thanks! – Frank Aug 13 '10 at 20:30
As I showed you in the example when if x and y are visible variables. If they are columns of a data.frame named foo, the you add a data=foo option to the loess(y ~ x. data=foo) call -- just like in almost all other modeling functions in R. – Dirk Eddelbuettel Aug 13 '10 at 20:35
i also like supsmu() as an out-of-the-box smoother – apeescape Aug 13 '10 at 21:19
how would that work if x is a date parameter? If I try it with a data table that maps a date to a number (using lo <- loess(count~day, data=logins_per_day) ) I get this: Error: NA/NaN/Inf in foreign function call (arg 2) In addition: Warning message: NAs introduced by coercion – Wichert Akkerman Oct 24 '11 at 19:05
@Wichert Akkerman It seems that date format is hated by most R functions. I typically do something like new$date = as.numeric(new$date, as.Date("2015-01-01"), units="days") (as described on stat.ethz.ch/pipermail/r-help/2008-May/162719.html) – Mateusz Konieczny Mar 13 at 13:25

Maybe smooth.spline is an option, You can set a smoothing parameter (typically between 0 and 1) here

smoothingSpline = smooth.spline(x, y, spar=0.35)

you can also use predict on smooth.spline objects. The function comes with base R, see ?smooth.spline for details.

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In order to get it REALLY smoooth...

x <- 1:10
y <- c(2,4,6,8,7,8,14,16,18,20)
lo <- loess(y~x)
xl <- seq(min(x),max(x), (max(x) - min(x))/1000)
lines(xl, predict(lo,xl), col='red', lwd=2)

This style interpolates lots of extra points and gets you a curve that is very smooth. It also appears to be the the approach that ggplot takes. If the standard level of smoothness is fine you can just use.

scatter.smooth(x, y)
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the qplot() function in the ggplot2 package is very simple to use and provides an elegant solution that includes confidence bands. For instance,

qplot(x,y, geom='smooth', span =0.5)

produces enter image description here

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LOESS is a very good approach, as Dirk said.

Another option is using Bezier splines, which may in some cases work better than LOESS if you don't have many data points.

Here you'll find an example: http://rosettacode.org/wiki/Cubic_bezier_curves#R

# x, y: the x and y coordinates of the hull points
# n: the number of points in the curve.
bezierCurve <- function(x, y, n=10)
    outx <- NULL
    outy <- NULL

    i <- 1
    for (t in seq(0, 1, length.out=n))
        b <- bez(x, y, t)
        outx[i] <- b$x
        outy[i] <- b$y

        i <- i+1

    return (list(x=outx, y=outy))

bez <- function(x, y, t)
    outx <- 0
    outy <- 0
    n <- length(x)-1
    for (i in 0:n)
        outx <- outx + choose(n, i)*((1-t)^(n-i))*t^i*x[i+1]
        outy <- outy + choose(n, i)*((1-t)^(n-i))*t^i*y[i+1]

    return (list(x=outx, y=outy))

# Example usage
x <- c(4,6,4,5,6,7)
y <- 1:6
plot(x, y, "o", pch=20)
points(bezierCurve(x,y,20), type="l", col="red")
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