cm0002@lemmy.world to Funny: Home of the Haha@lemmy.world · 11 days agoNew Mathlemmy.mlimagemessage-square117fedilinkarrow-up1842arrow-down113
arrow-up1829arrow-down1imageNew Mathlemmy.mlcm0002@lemmy.world to Funny: Home of the Haha@lemmy.world · 11 days agomessage-square117fedilink
minus-squareembed_me@programming.devlinkfedilinkarrow-up2·11 days agoYes, that requires a reference value to be decided upon beforehand.
minus-squaredriving_crooner@lemmy.eco.brlinkfedilinkarrow-up4·11 days agoNot really, you do t=n and t=n+1, for n= 1, 2, 3 for a quick view on volatility. Then ypu look up for correlations between e[t=n | t= 0, t= 1…] for different Ns. For more I would need to check out my notes
minus-squareembed_me@programming.devlinkfedilinkarrow-up2·11 days agoOh I was imagining something entirely different. Like a simple logarithmic scale of a signal, I do not know anything about time series analysis. Should’ve kept my mouth shut
Yes, that requires a reference value to be decided upon beforehand.
Not really, you do t=n and t=n+1, for n= 1, 2, 3 for a quick view on volatility.
Then ypu look up for correlations between e[t=n | t= 0, t= 1…] for different Ns. For more I would need to check out my notes
Oh I was imagining something entirely different. Like a simple logarithmic scale of a signal, I do not know anything about time series analysis. Should’ve kept my mouth shut