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9:21 PM
@flawr Any idea?
 
@LuisMendo Mandalorian season 2 started yesterday :)
 
@AndrasDeak I know... But I think I'll wait a bit more, maybe until the last season is finished, to see what people think. I don't want another fiasco like Game of Thrones' last season :-)
 
Interesting; never heard of Bernstein polynomials
@LuisMendo have the writers changed? The main issue with the GoT finale was that they ran out of Martin
 
@AndrasDeak I don't know what happened... Yes, Martin wasn't there, but I think that was the case too in some previous seasons and they were good. But (most of) the last season was disappointing
 
Yeah, but I think by the end they had nothing to go by, so it was like twitter.com/holtbt/status/977419276251430912
they just rushed some crap from poor writers to get it over with
 
9:29 PM
Haha yes, that's exactly it
 
9:43 PM
With GoT they were bound by the original insane complexity of the original books, to which they couldn't live up to. With Mandalorian they are setting their own limits. So I'm hopeful :) In any case the first episode of the second season is as good as the first season.
 
 
1 hour later…
10:47 PM
Glad to heat that! :-)
 
@LuisMendo (I know following is not what you asked) I think as long as all we know about f is continuity, we cannot get a "more explicit" bound than one that depends on this epsilon/delta relationship dictated by f. There is a slightly simpler bound along with a proof on the english wikipedia page (also with some epsilon-delta stuff): en.wikipedia.org/wiki/Bernstein_polynomial#Elementary_proof
I'm not very familiar with bernstein polynomials, I only ever encountered them in the usual theoretical context.
But if you know e.g. that f is differentiable you can replace that epsilon/delta expression with a derivative
(or a lipschitz constant if f is lipschitz continuous)
 
11:16 PM
here they mention a reference that is supposed to have the proof of the statement: sciencedirect.com/science/article/pii/0022247X89902114
can't find a copy of that reference though:)
 

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