This is interesting. We shouldn’t get a discontinuous jump.
Consider 2 related situations:
if Heads she is woken up on Monday, and the experiment ends on Tuesday. If tails, she is woken up on Monday and Tuesday, and the experiment ends on Wed. In this case, there is no ‘not awake’ option.
If heads she is woken up on Monday and Tuesday. On Monday she is asked her credence for heads. On Tuesday she is told “it’s Tuesday and heads” (but she is not asked about her credence; that is, she is not interviewed). If tails, it’s the usual woken up both days and asked about her credence. The experiment ends on Wed.
In both of these scenarios, 50% of coin flips will end up heads. In both cases, if she’s interviewed she knows it’s either Monday&heads, Monday&tails or Tuesday&tails. She has no way of telling these three options apart, due to the amnesia.
I don’t think we should be getting different answers in these 2 situations. Yet, I think if we use your probability distributions we do.
I think there are two basic problems. One is that Monday&tails is really not different from Tuesday&tails. They are the same variable. It’s the same experience. If she could time travel and repeat the monday waking it would feel the same to her as the Tuesday waking. The other issue is that, even though in my scenario 2 above, when she is woken but before she knows if she will be interviewed, it would look like there is a 25% chance it’s heads&Monday and a 25% it’s heads&Tuesday. And that’s probably a reasonable way to look at it. But, that doesn’t imply that, once she finds out it’s an interview day, that the probability of heads&Monday shifts to 1⁄3. That’s because on 50% of coin flips she will experience heads&Monday. That’s what makes this different than a usual joint probability table representing independent events.
My reasoning has been to consider scenario 1 from the perspective of an outside observer, who is uncertain about each variable: a) whether it is Monday or Tuesday, b) how the coin came up, c) what happened to Beauty on that day.
To that observer, “Tuesday and heads” is definitely a possibility, and it doesn’t really matter how we label the third variable: “woken”, “interviewed”, whatever. If the experiment has ended, then that’s a day where she hasn’t been interviewed.
If the outside observer learns that Beauty hasn’t been interviewed today, then they may conclude that it’s Tuesday and that the coin came up heads, thus a) they have something to update on and b) that observer must assign probability mass to “Tuesday & Heads & not interviewed”.
If the outside observer learns that Beauty has been interviewed, it seems to me that they would infer that it’s more likely, given their prior state of knowledge, that the coin came up heads.
To the outside observer, scenario 2 isn’t really distinct from scenario 1. The difference only makes a difference to Beauty herself.
However, I see no reason to treat Beauty herself differently than an outside observer, including the possibility of updating on being interviewed or on not being interviewed.
So, if my probability tables are correct for an outside observer, I’m pretty sure they’re correct for Beauty.
(My confidence in the table themselves, however, has been eroded a little by my not being able to calculate Beauty—or an observer—updating on a new piece of information in the “fuzzy” variant, e.g. using P(heads|woken) as a prior probability and updating on learning that it is in fact Tuesday. It seems to me that for the math to check out requires that this operation should recover the “absent-minded experimenter” probability for “tuesday & heads & woken”. But I’m having a busy week so far and haven’t had much time to think about it.)
This is interesting. We shouldn’t get a discontinuous jump.
Consider 2 related situations:
if Heads she is woken up on Monday, and the experiment ends on Tuesday. If tails, she is woken up on Monday and Tuesday, and the experiment ends on Wed. In this case, there is no ‘not awake’ option.
If heads she is woken up on Monday and Tuesday. On Monday she is asked her credence for heads. On Tuesday she is told “it’s Tuesday and heads” (but she is not asked about her credence; that is, she is not interviewed). If tails, it’s the usual woken up both days and asked about her credence. The experiment ends on Wed.
In both of these scenarios, 50% of coin flips will end up heads. In both cases, if she’s interviewed she knows it’s either Monday&heads, Monday&tails or Tuesday&tails. She has no way of telling these three options apart, due to the amnesia.
I don’t think we should be getting different answers in these 2 situations. Yet, I think if we use your probability distributions we do.
I think there are two basic problems. One is that Monday&tails is really not different from Tuesday&tails. They are the same variable. It’s the same experience. If she could time travel and repeat the monday waking it would feel the same to her as the Tuesday waking. The other issue is that, even though in my scenario 2 above, when she is woken but before she knows if she will be interviewed, it would look like there is a 25% chance it’s heads&Monday and a 25% it’s heads&Tuesday. And that’s probably a reasonable way to look at it. But, that doesn’t imply that, once she finds out it’s an interview day, that the probability of heads&Monday shifts to 1⁄3. That’s because on 50% of coin flips she will experience heads&Monday. That’s what makes this different than a usual joint probability table representing independent events.
My reasoning has been to consider scenario 1 from the perspective of an outside observer, who is uncertain about each variable: a) whether it is Monday or Tuesday, b) how the coin came up, c) what happened to Beauty on that day.
To that observer, “Tuesday and heads” is definitely a possibility, and it doesn’t really matter how we label the third variable: “woken”, “interviewed”, whatever. If the experiment has ended, then that’s a day where she hasn’t been interviewed.
If the outside observer learns that Beauty hasn’t been interviewed today, then they may conclude that it’s Tuesday and that the coin came up heads, thus a) they have something to update on and b) that observer must assign probability mass to “Tuesday & Heads & not interviewed”.
If the outside observer learns that Beauty has been interviewed, it seems to me that they would infer that it’s more likely, given their prior state of knowledge, that the coin came up heads.
To the outside observer, scenario 2 isn’t really distinct from scenario 1. The difference only makes a difference to Beauty herself.
However, I see no reason to treat Beauty herself differently than an outside observer, including the possibility of updating on being interviewed or on not being interviewed.
So, if my probability tables are correct for an outside observer, I’m pretty sure they’re correct for Beauty.
(My confidence in the table themselves, however, has been eroded a little by my not being able to calculate Beauty—or an observer—updating on a new piece of information in the “fuzzy” variant, e.g. using P(heads|woken) as a prior probability and updating on learning that it is in fact Tuesday. It seems to me that for the math to check out requires that this operation should recover the “absent-minded experimenter” probability for “tuesday & heads & woken”. But I’m having a busy week so far and haven’t had much time to think about it.)