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I am looking for a Ruby gem or library that does logarithmic regression (curve fitting to a logarithmic equation). I've tried statsample (http://ruby-statsample.rubyforge.org/), but it doesn't seem to have what I'm looking for. Anybody have any suggestions?

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I'm not sure if you are familiar with ruby-toolbox.com but it helped me find a suitable library / plugin for most of my projects. –  Maran Oct 8 '10 at 20:50

2 Answers 2

I'm currently looking for something similar and came across this answer.

Three gems to interact with R from Ruby:

  • RinRuby (https://sites.google.com/a/ddahl.org/rinruby-users/)
  • RSRuby (https://github.com/alexgutteridge/rsruby)
  • Rserve through the Rserve-Ruby-Client (https://github.com/clbustos/Rserve-Ruby-client)

Another gem for LR in Ruby:

  • linear-regression-ruby (http://code.google.com/p/linear-regression-ruby/)

I haven't tried anything yet, but I'm investigating what options there are for doing MLR in Ruby.

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Try using the 'statsample' gem. You can perform exponential, logarithmic, power, sinusoidal or any other transformation using similar methods. I hope this helps.

require 'statsample'

# Independent Variable
x_data = [Math.exp(1), Math.exp(2), Math.exp(3), Math.exp(4), Math.exp(5)]

# Dependent Variable
y_data = [3, 5, 7, 9, 11]

# Logarithmic Transformation of X data 
# Math.log in Ruby has the base of Euler's number 'e' ~= '2.71828', 
# instead of the base '10'. Just a note.
log_x_data = x_data.map { |x| Math.log(x) }

# Linear Regression using the Logarithmic Transformation
x_vector = log_x_data.to_vector(:scale)
y_vector = y_data.to_vector(:scale)
ds = {'x'=>x_vector,'y'=>y_vector}.to_dataset
mlr = Statsample::Regression.multiple(ds,'y')

# Prints a statistical summary of the regression
print mlr.summary

# Lists the value of the y-intercept 
p mlr.constant

# Lists the coefficients of each casual variable. In this case, we have only one--'x'.
p mlr.coeffs

# The regression output produces the line y = 1 + 2*x, but 
# considering that we transformed x earlier, it really produces
# y = 1 + 2*ln(x).

# Bonus: The command below lists the methods contained in the instance variable, so that 
# you can get the R^2, SSE, coefficients, and t-values. I'll leave it commented out for now. 
# p mlr.methods
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