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I am trying to generate 100 random numbers that follow a nls created from # of ignitions (y axis) and duration of fire (x). It has taken some jerry-rigging to get it to this point, so I hope my code makes sense.

> t.x <- c(2.5,7.5,12.5,17.5,22.5,27.5,32.5,37.5) 

t.x is a list of the midpoint of the duration bins (e.g. 1-5 becomes 2.5)

> t.y <- c(22,4,4,0,1,1,2,1) 

t.y is the number of ignitions per duration bin (22 ignitions for 1+2+3+4+5 day durations)

Note - My y is not dependent on my x, but in order to get a nls to work, I had to graph it this way.

I then rearranged my x-axis so that it is a positive exponential relationship instead of negative one b/c that is easier for me to graph

> t.x.new <- max(t.x)-t.x

The following is my plot and nls. I eliminated the last bin within the nls b/c I could not get a good fit if I included it.

> t.0 <- t.y>20
> test2 <- new.test[!t.0,]
> plot(new.test$x, new.test$y)
> mod2 <- nls(y ~ exp(a+b*x), data=test2, start=list(a=0,b=0))
> lines(test2$x, predict(mod2, list=(x=test2$x)))
> lines(new.test$x, predict(new.mod, list(x=new.test$x)), col="red")

From here I want to generate random numbers based on the nls (mod2) in order to set random durations for simulations I am running. Any help or ideas that you have will be most appreciated. Thank you.

share|improve this question
Probably use quantile either with your original (normalized) probabilities or a finder grid attained with your predict operations. –  Carl Witthoft Sep 25 '13 at 19:56

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