Timeline for 'Nonclassical' abstract Wiener space
Current License: CC BY-SA 3.0
28 events
| when toggle format | what | by | license | comment | |
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| Aug 1, 2017 at 23:53 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Jul 2, 2017 at 23:04 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Jun 2, 2017 at 22:07 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| May 3, 2017 at 21:17 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Apr 3, 2017 at 20:39 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Mar 4, 2017 at 20:24 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Feb 2, 2017 at 19:55 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Jan 3, 2017 at 19:00 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Dec 4, 2016 at 18:30 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Nov 4, 2016 at 17:51 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Oct 5, 2016 at 17:28 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Sep 5, 2016 at 17:21 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Aug 6, 2016 at 16:42 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Jul 7, 2016 at 16:03 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Jun 7, 2016 at 14:01 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| May 8, 2016 at 13:10 | comment | added | Yemon Choi | I have just had to roll back an edit from @AmirSagiv which changed the sense/intent of the original by implicitly reversing quantifiers: the question starts with $\Omega$ and asks to find $(W,H,\mu)$, while Amir's edit starts with $(W,H,\mu)$ and asked "does there exist $\Omega$". Amir, please stop doing these kinds of edit if you are not absolutely certain about the original intent and the English idiom! | |
| May 8, 2016 at 13:07 | history | rollback | Yemon Choi |
Rollback to Revision 2
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| S May 8, 2016 at 8:07 | history | suggested | Amir Sagiv | CC BY-SA 3.0 |
tags + english
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| May 8, 2016 at 6:14 | review | Suggested edits | |||
| S May 8, 2016 at 8:07 | |||||
| May 8, 2016 at 1:21 | history | bumped | CommunityBot | This question has answers that may be good or bad; the system has marked it active so that they can be reviewed. | |
| Mar 9, 2016 at 4:26 | comment | added | Alexander Shamov | My not-so-educated guess is that this is impossible because the embedding $C^\alpha \to C$ should only be $2$-summing for $\alpha > d/2$. | |
| Mar 9, 2016 at 4:21 | comment | added | Alexander Shamov | What you are asking is equivalent to squeezing Hilbert spaces $H$ in between $C^{0,\frac{1}{2}}(\Omega)$ and $C(\Omega^\prime)$ for subsets $\Omega^\prime$ of arbitrarily large measure. Indeed, whenever a Gaussian measure lives in $L^0$ its Cameron-Martin space has to consist of functions that are continuous on sets of large measure, and conversely, for any such Cameron-Martin space, the canonical Gaussian measure lives in $W := L^1(\mu^\prime)$ for some equivalent measure $\mu^\prime$. | |
| Oct 10, 2015 at 22:19 | answer | added | Nate Eldredge | timeline score: 1 | |
| Oct 10, 2015 at 22:04 | history | edited | Nate Eldredge |
edited tags
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| Oct 10, 2015 at 15:53 | comment | added | Jean Duchon | A candidate (in 1 dim) would be $H=H^{1/2}$, and the question seems to be whether the Gaussian Fourier series partial sums $\sum_1^N n^{-1/2}Z_n e^{inx}$ (with $Z_n$ i.i.d. complex Gaussian variables) converge in measure on $(0,2\pi)$. I would be surprised if it did! And the condition that $W$ be normed adds to the doubtfulness... | |
| Oct 10, 2015 at 9:42 | history | edited | Stefan Kohl♦ | CC BY-SA 3.0 |
Added top-level tag.
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| Aug 9, 2015 at 20:45 | review | First posts | |||
| Aug 9, 2015 at 20:55 | |||||
| Aug 9, 2015 at 20:40 | history | asked | user546388 | CC BY-SA 3.0 |