If you think 2 data points are sufficient to update your methodology to 3 s.f. of precision I don’t know what to tell you. I think if I have 2 data point and one of them is 0.99 then it’s pretty clear I should make my intervals wider, but how much wider is still very uncertain with very little data. (It’s also not clear if I should be making my intervals wider or changing my mean too)
I don’t know what s.f is, but the interval around 1.73 is obviously huge, with 5-1-0 data points it’s quite narrow if your predictions are drawn from N(1, 1.73), that is what my next post will be about. There might also be a smart way to do this using the Uniform, but I would be surprised if it’s dispersion is smaller than a chi^2 distribution :)
(changing the mean is cheating, we are talking about calibration, so you can only change your dispersion)
I am absolutely not missing that step. I am suggesting that should be the only step.
(I don’t agree with your intuitions in your “explanation” but I’ll let someone else deconstruct that if they want)
Hard disagree, From two data points I calculate that my future intervals should be 1.73 times wider, converting these two data points to U(0,1) I get
[0.99, 0.25]
How should I update my future predictions now?
If you think 2 data points are sufficient to update your methodology to 3 s.f. of precision I don’t know what to tell you. I think if I have 2 data point and one of them is 0.99 then it’s pretty clear I should make my intervals wider, but how much wider is still very uncertain with very little data. (It’s also not clear if I should be making my intervals wider or changing my mean too)
I don’t know what s.f is, but the interval around 1.73 is obviously huge, with 5-1-0 data points it’s quite narrow if your predictions are drawn from N(1, 1.73), that is what my next post will be about. There might also be a smart way to do this using the Uniform, but I would be surprised if it’s dispersion is smaller than a chi^2 distribution :) (changing the mean is cheating, we are talking about calibration, so you can only change your dispersion)