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I would like to plot the shifted logistic function as shown from Wolfram Alpha.

In particular, I would like the function to be of the form

y = exp(x - t) / (1 + exp(x - t))

where t > 0. In the link, for example, t is 6. I had originally tried the following:

x = 0:.1:12;
y = exp(x - 6) ./ (1 + exp(x - 6));
plot(x, y);
axis([0 6 0 1])

However, this is not the same as the result from Wolfram Alpha. Here is an export of my plot.

I do not understand what the difference is between what I am trying to do here vs. plotting shifted sin and cosine functions (which works using the same technique).

I am not completely new to Matlab but I do not usually use it in this way.

Edit: My values for x in the code should have been from 0 to 12.

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Could you provide us with images of your expected output and your current output? I'm not sure what "doesn't look the same" really means. –  Blender Nov 24 '11 at 4:09
    
Expected output is in the first link to Wolfram Alpha. The output that I am getting is in the export of my plot. I should add that I used x from 0 to 20 in the export of my plot, but I want to be able to plot for any values of t > 0. –  tsliwkan Nov 24 '11 at 4:21

2 Answers 2

up vote 1 down vote accepted

fplot takes as inputs a function handle and a range to plot for:

>> fplot(@(x) exp(x-6) / (1 + exp(x-6)), [0 12])

Function of interest

The beauty of fplot in this case is you don't need to spend time calculating y-values beforehand; you could also extract values from the graph after the fact if you want (by getting the line handle's XData and YData properties).

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Excellent, this is exactly what I was looking for and more! For those interested in getting the x and y values from the plot after it is plotted, see this article. –  tsliwkan Nov 24 '11 at 5:00

Your input to Wolfram Alpha is incorrect. It is interpreted as e*(x-6)/(1-e*(x-6)). Use plot y = exp(x - 6) / (1 + exp(x - 6)) for x from 0 to 12 in Wolfram Alpha (see here) for the same results as in MATLAB. Also use axis([0 12 0 1]) (or no axis statement at all on a new plot) to see the full results in MATLAB.

In reply to your comment: use y = exp(1)*(x - 6) ./ (1 + exp(1)*(x - 6)); to do in MATLAB what you were doing in Wolfram Alpha.

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I would like what is originally interpreted in WA to be plotted in Matlab. –  tsliwkan Nov 24 '11 at 4:38
    
@slikz: see my edit which shows how you can do that in MATLAB, but it doesn't look like a logistic function. –  Ramashalanka Nov 24 '11 at 4:40
    
I'm not sure if the function in your edit works or not. This is the output that I am getting now. –  tsliwkan Nov 24 '11 at 4:47
    
@slikz: that is the same as on your link in Wolfram Alpha. Use axis([0 12 0.3 1.7]) in MATLAB to make them look more similar. –  Ramashalanka Nov 24 '11 at 4:50

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