# Generating points around straight line

I'm doing some clustering research and need to generate synthetic data that would look something like these examples:

We have 2d plots with 2 classes (red and black). How could I generate 2D data like this? It has a V structure, so I was thinking about generating points around straight lines - is there a way to do that in R? I'm using R, but am open to other tools (just data has to be exportable).

Thanks.

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Here's a thought.

``````n <- c(200,200)                 # Number of points in each class
cls <- rep(1:2, n)              # Class memberships
i <- c(.2-.12*abs(rnorm(n[1])), # Noiseless x position
-.2+.12*abs(rnorm(n[2])))
noise <- .04*(.2-abs(i))        # Noise level relative to `i`

# Final sample
x <- cbind(i, abs(.5*i)) + noise*matrix(rnorm(sum(n)*2), sum(n), 2)

plot(x[,1], x[,2], col=cls)
``````

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This is great, thanks! –  genesiss Aug 22 '12 at 20:15
You're welcome! I was working on a density estimator once and had to generate all kinds of crazy distributions to benchmark on, it's quite fun. –  Backlin Aug 22 '12 at 20:55

Is there any reason to generate this very particular type of data? Any results drawn from this will likely not generalize to other datasets.

Anyway, the obvious way to generate this kind of data is to use a nonlinear projection, e.g. using the famous "abs" function (absolute value).

i.e. project x to (in python syntax, I don't like R): `math.abs(x)` or if you want some extra randomness: `math.abs(x + random.random(.1)) + random.random(.1)`

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In R: `abs(x + rnorm(length(x), sd = .1)) + rnorm(length(x), sd = .1)`, with runif instead of rnorm if that's your type of noise :) –  machow Aug 22 '12 at 19:34
Actually I'm testing my similarity measure on 'Congressional Voting Records Data Set': archive.ics.uci.edu/ml/datasets/Congressional+Voting+Records If I scale (cmdscale) generated distance matrix to 2 dimensions I get points as in examples above. My similarity measure has one parameter and with voting dataset I get different results for different values of that parameter. I wanted to see if this is true for all clusters with similar shape. –  genesiss Aug 22 '12 at 20:02
I'm not sure how sensible `cmdscale` is on a dataset consisting of binary vectors. This can produce odd projections. You really should inspect the type of projection produced by `cmdscale`, which could boil down to something like "number of `y` on bills" and the voting behavior on a particular bill. So it could be that what you are seeing is an artifact of your preprocessing applied to binary data vectors. –  Anony-Mousse Aug 23 '12 at 10:14
For data generation, it may then work very well for you to generate binary vectors first (for probability p, class 1 votes "y" with `p` and "n" with 1-p, while class 2 does the inverse), then project them via `cmdscale`. –  Anony-Mousse Aug 23 '12 at 10:15