@TheAnon_Duck @SimonMakin Maybe start here https://t.co/P8fRj9JkEz Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception
@LucaAmb @seeingwithsound @lynnle_ai @kateiyas @yagmurgucluturk @artcogsys There is also this beautiful work by Rainer Goebels group on reconstructing imagined letters but they had to train their participants quite extensively on their imagery before it wo
@ThisOrTheOtter I'm not sure if I have the original article I read in grad school where they actually used wires. But here's another one I do have: https://t.co/U0bkk4NCnO
@InspiringChris1 @epichrist @ntrails @BraxHunter @nath_ormond @EHM_Apologetics @Aron_Ra While I was cleaning the house, I put on his debate with Skylar and commented on it, here on Twitter. Here's also a paper, which I've shared before. https://t.co/U0bkk
@InspiringChris1 @EHM_Apologetics @BraxHunter @Aron_Ra Would you like to go through the video together? It's been four months since I watched it, and Aron didn't quote all of my tweets. We can address the fact that this paper refutes at least one of Eric's
@EHM_Apologetics @BraxHunter @Aron_Ra @InspiringChris1 On of the more misleading statements you made was something like, "You can't open up someone's skull and tell what they're thinking." Yes, it's hard, but not impossible. Consider this paper: https://t.
@Lionheart213072 @InspiringChris1 @JBTweets83 @ReginaldODonog1 @SentinelApolog1 @InspiringPhilos Hernandez said, for instance, that you can't look into a person's head and tell what they're thinking. Maybe not everything just yet, but with visual imaginati
@BonafideRouser @pelayoapophatic @Dylon59556561 @Youthresist But they can SEE it. That's my whole point. You seem to think that your thoughts are locked up in some metaphysical realm. But we can probe the brain and get direct access to your thoughts. Thre
@BonafideRouser @pelayoapophatic @Dylon59556561 @Youthresist We can literally probe the brain and see in your visual cortex what you are visually imagining. This is absolutely nothing new. https://t.co/U0bkk4NCnO
@AndToddsaid Yes. I definitely am referring to implements inside the skull. Lots of such studies have been done. https://t.co/U0bkk4NCnO
@Lionheart213072 Basically everything he said about neuroscience. For instance he said that we can't open up our skulls and see what people are thinking. Oh, really? So fMRI don't work? And this paper is fraud? https://t.co/U0bkk4NCnO
@stablecross @Dr_Gloom1296 @tmeister1234 @FastChase @CapturingChrist Well, I did give you one, pertaining to memory. What else did you want to know? Here's a cool paper on reading from the visual cortex what someone is imagining.. https://t.co/U0bkk4NCnO
Gerçi buna bakınca zihinde canlandırılan harflerin görme korteksinden yeniden yapılandırıldığında imgelemin topografik temsilinin fiziksel harflerin temsiline tekabül ettiğinin aşırı havalı bir yöntemle gösterilmesi canlanıyor gözümde önce ama neysesdfghjl
@SammyOleka But we CAN demonstrate thoughts physically. Here's one example of how: https://t.co/U0bkk4NCnO
RT @theosib2: It is incorrect to say you can't open your skull and look at your brain and see your thoughts. Here's just one of many exampl…
It is incorrect to say you can't open your skull and look at your brain and see your thoughts. Here's just one of many examples of how you can do just that. https://t.co/U0bkk4NCnO [@Aron_Ra]
@EHM_Apologetics @BraxHunter @Aron_Ra It is possible to probe your brain and have a computer figure out what it is you're imagining, because your visual imagination happens in your visual cortex. Here's one example: https://t.co/U0bkk4NCnO
@repent_and_turn @_terry2020 @NickyLauder87 @Prophet_of_Zod Depends on what you mean. We can imagine abstract and unreal things like unicorns and triangles. We can even probe your visual cortex and see what you're imagining. https://t.co/U0bkk4NCnO https
@Vuk90779311 @InspiringPhilos You can see, touch, and observe the machine that implements the mind. Check out these articles: https://t.co/U0bkk4NCnO https://t.co/aZl2zgtmTu https://t.co/ET8SoPTtp6
@Youthresist @EHM_Apologetics @paulogia0 Here's two more: https://t.co/aZl2zgtmTu https://t.co/U0bkk4NCnO
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @seeingwithsound: Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual menta…
New from #ERC_Research https://t.co/5u52SsfS3r Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
Very cool images from 7T fmri
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception https://t.co/zCgr1Y8des
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @NikWeiskopf: Cool idea. Reading out letters from visual BOLD activity. https://t.co/81sRekVBHT
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
Cool idea. Reading out letters from visual BOLD activity.
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
RT @INM7_ISN: Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7…
Reconstructing imagined letters from early visual cortex. Nice work from @Mario_Senden / Rainer Goebel using sub-mm fMRI at 7T. I've always been skeptical of imagery tasks, but from the visual field reconstructions, you can really recognize letters! http
Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception. - PubMed - NCBI https://t.co/Ekjp8h3n7q
"Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception" https://t.co/Y0tQPX5QdN [ #neuroscience #machinelearning ]
RT @seeingwithsound: Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual menta…
RT @MichaelProulx: This paper and figure look so cool! https://t.co/chX3T5eKtd
This paper and figure look so cool!
Massively interesting, and goes along well with my case study of Esref Armagan! @Johnny_Ravo your thoughts?
Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception https://t.co/IB0mlT0QAi Also potentially relevant to neuroscience studies with sensory substitution devices for t
Now in Brain Structure & Function: https://t.co/Mn2ySKCQRW