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R - Problem: to find the optimum number of non-uniform bins to show a range of data points.

I have a bunch of data points (let us assume different prices of different mobiles). I need to categorize these mobile phones into some categories (based on the price). The bin size (in this example refers to the price range) need not be uniform (there might be lots of mobiles in the low price category and few in the long tail category).

Is there any efficient algorithm to find the optimum number of bins required and the number of data points (in this case mobile phones) which shall go into each category.

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this might be helpful: stats.stackexchange.com/questions/55777/…, and this stats.stackexchange.com/questions/798/… –  adibender May 20 '13 at 11:56
    
Depends a lot on what you want to do with the data. Just plot a histogram? Generate a purchasing algorithm to maximize sales profit? and so on. –  Carl Witthoft May 20 '13 at 13:22
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define optimum. –  flodel May 20 '13 at 14:08
    
The optimum number is seven. –  BondedDust May 20 '13 at 16:16
    
@Dwin you forgot to show your sigfigs. :-) –  Carl Witthoft May 20 '13 at 17:24
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1 Answer 1

This is not a standard formula, but wanted to post as it seem to work well with data set i tested.

  1. Find the average price of all the mobiles.

    Ex: 5 mobiles with prices 10, 20, 40, 80, 200

    Avg is 350/5 = 70

  2. Subtract minimum price from average price: 70 - 10 = 60 -> name it N1

  3. Subtract avg price from Max price: 200 - 70 = 130 -> name it N2

  4. Find the ratio N2/N1 : 130/60: Roughly 2

    This indicates that it is better to have 2 bins at the lower price range for every 1 bin at higher range.

  5. So, for example take 2 bins below 70. Range 0 - 35(2 mobiles), 36 - 70(1 mobile)

    1 bin above 70: Range 71 - 200(2 mobiles)

As you can see, number of bins and bin sizes are reasonably optimal.

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