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Mayo comments on Rationality Quotes September 2013 - Less Wrong
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Yeah. The problem is that most scientists seem to still be taught from textbooks that use a Popperian paradigm, or at least Popperian language, and they aren't necessarily taught probability theory very thoroughly, they're used to publishing papers that use p-value science even though they kinda know it's wrong, etc.
So maybe if we had an extended discussion about philosophy of science, they'd retract their Popperian statements and reformulate them to say something kinda related but less wrong. Maybe they're just sloppy with their philosophy of science when talking about subjects they don't put much credence in.
This does make it difficult to measure the degree to which, as Eliezer puts it, "the world is mad." Maybe the world looks mad when you take scientists' dinner party statements at face value, but looks less mad when you watch them try to solve problems they care about. On the other hand, even when looking at work they seem to care about, it often doesn't look like scientists know the basics of philosophy of science. Then again, maybe it's just an incentives problem. E.g. maybe the scientist's field basically requires you to publish with p-values, even if the scientists themselves are secretly Bayesians.
For what it's worth, I understand well the arguments in favor of Bayes, yet I don't think that scientific results should be published in a Bayesian manner. This is not to say that I don't think that frequentist statistics is frequently and grossly mis-used by many scientists, but I don't think Bayes is the solution to this. In fact, many of the problems with how statistics is used, such as implicitly performing many multiple comparisons without controlling for this, would be just as large of problems with Bayesian statistics.
Either the evidence is strong enough to overwhelm any reasonable prior, in which case frequentist statistics wlil detect the result just fine; or else the evidence is not so strong, in which case you are reduced to arguing about priors, which seems bad if the goal is to create a societal construct that reliable uncovers useful new truths.
No, the multiple comparisons problem, like optional stopping, and other selection effects that alter error probabilities are a much greater problem in Bayesian statistics because they regard error probabilities and the sampling distributions on which they are based as irrelevant to inference, once the data are in hand. That is a consequence of the likelihood principle (which follows from inference by Bayes theorem). I find it interesting that this blog takes a great interest in human biases, but guess what methodology is relied upon to provide evidence of those biases? Frequentist methods.
Deborah, what do you think of jsteinhardt's Beyond Bayesians and Frequentists?