Semantic cross-associations, weighted when "crawled", generate meaning. The tiling is likely formed early on but also may reveal an underlying structure (Chomsky?). Like LLMs. "Natural speech reveals the semantic maps that tile human cerebral cortex" ht
RT @alex_ander: Scaling dataset size (here from 10 minutes of data per person to ~20 hours) also gives log-linear improvement. My early wor…
RT @neurosocialself: Spoken words • systematically activate specific areas in our individual brains: left, right .. deeper and surfaced • a…
Scaling dataset size (here from 10 minutes of data per person to ~20 hours) also gives log-linear improvement. My early work on semantic mapping only used 10 stories (https://t.co/KToGW4yTRB), our big new datasets more than double prediction performance ht
@neuroecology how about https://t.co/KpV2QYRkmk
And here 'natural speech reveals the semantic maps that tile' the entire brain (from @alex_ander and friends). https://t.co/D7fZNyoWwK https://t.co/gL8R27bJEk
RT @neurosocialself: As we listen to spoken words, specific areas in our brains activate: left, right, deeper, surfaced • Semantic maps til…
RT @patrickmineault: Compare this to the predictive performance of a simple semantic model (Huth et al. 2016) https://t.co/P3VX2p0pOO . Sem…
RT @patrickmineault: Compare this to the predictive performance of a simple semantic model (Huth et al. 2016) https://t.co/P3VX2p0pOO . Sem…
RT @patrickmineault: Compare this to the predictive performance of a simple semantic model (Huth et al. 2016) https://t.co/P3VX2p0pOO . Sem…
Compare this to the predictive performance of a simple semantic model (Huth et al. 2016) https://t.co/P3VX2p0pOO . Semantics change more slowly over time. Given fMRI's time scales, semantics is better reflected in the signal 5/ https://t.co/HJMrUVx6sx
@boeslab We mention "temporal" selectivity in a 2016 paper (https://t.co/JGu4XCfcK2), but I don't recall if we show maps for it specifically. You can definitely see it in the online viewer (https://t.co/WyuFVYdfJF) if you switch to "PrAGMATiC" mode and che
@boeslab (this was using data from this paper: https://t.co/ju7zKfGWBJ and the model from this one: https://t.co/JGu4XCfcK2)
As we listen to spoken words, specific areas in our brains activate: left, right, deeper, surfaced • Semantic maps tile our brains and now we can image them .. 📺 fascinating talk @gallantlab UC Berkeley ▶️ https://t.co/Y3yI8NrSzq 📚2016 paper @nature http
RT @neurosocialself: As we listen to spoken words, specific areas in each of our brains activate: left, right, deeper, surfaced • Semantic…
RT @neurosocialself: As we listen to spoken words, specific areas in each of our brains activate: left, right, deeper, surfaced • Semantic…
This study looks at a detailed map of semantic language in cortex: #PSY303DC https://t.co/7hv1leQfJw
This study looks at a detailed map of semantic language in cortex: https://t.co/6Zo4QEIWnb
RT @neurosocialself: As we listen to spoken words, specific areas in each of our brains activate: left, right, deeper, surfaced • Semantic…
As we listen to spoken words, specific areas in each of our brains activate: left, right, deeper, surfaced • Semantic maps tile our brains and we can map them 📺 fascinating talk @gallantlab UC Berkeley ▶️ https://t.co/YFEk7EhM0O 📚2016 paper @nature ▶️ ht
Back in 2012 we used natural movies to show that most of "higher" VC is semantically selective (https://t.co/EEDzOtpw6E). Similarly, in 2016 we used natural language to show that a huge fraction of association cortex is also semantically selective (https:/
RT @yuji_ikegaya: 物語を聞かせながらfMRIで脳活動を記録。単語に応じて活性化する箇所が大脳皮質に分散していたため、「意味の脳地図」が完成したそうです。今朝の『ネイチャー』誌より→https://t.co/A9bwsD7Nft(地図映像はこちら→https:/…
@bayesianboy Tbh I'm a fan of Huth et al.'s semantic mapping work as well: https://t.co/bfqAvOYYMc; https://t.co/hMC9gZBP15
Spoken words • systematically activate specific areas in our individual brains: left, right .. deeper and surfaced • and the intricate activity patterns seem to be pretty consistent across individuals | Gallant Lab study 📚2016 paper @nature https://t.co/HJ
#CogSciPaperOfTheDay Huth, A. G.@alex_ander, De Heer, W. A., Griffiths, T. L.@cocosci_lab, Theunissen, F. E., @TheunissenLab & Gallant, J. L. @gallantlab(2016). Natural speech reveals the semantic maps that tile human cerebral cortex. Nature, 532. ht
Conceptual representations are bilateral, widely distributed, and strikingly similar across individuals. https://t.co/cOUkKIjYsj
US: As we listen to spoken words, specific areas in our brains activate: left, right, deeper, surfaced • Semantic maps tile our brains • We can map them 📺 fascinating talk @gallantlab UC Berkeley ▶️ https://t.co/8Bxu2Kpy8V 📚2016 paper @nature ▶️ https:/
@Dick_retired @deevybee I can think of lots! One that looms large: fMRI has completely changed our understanding of the semantic system, e.g. Jeff Binder's work, and then this kind of thing: https://t.co/cOUkKIjYsj I don't think anyone imagined it would lo
@Lepisma_Sacchar Esa afirmación tiene varias interpretaciones. Si te refieres a que se detecte sin que el individuo piense pues no... si te refieres a transferir lo aprendido de uno o varios individuos a una persona nueva y que muestre alta sensibilidad...
US: As we listen to specific words being spoken, specific areas in our brains activate • We can map these areas in individuals | Watch a short, fascinating talk | @gallantlab at UC Berkeley 📺 ▶️ https://t.co/8Bxu2Kpy8V • The 2016 paper in @nature ▶️ https:
Language. Words. Where do they land in the brain? Natural speech reveals the semantic maps that tile human cerebral cortex | Nature https://t.co/Ht8efV4rpz
@jealcalat @Lepisma_Sacchar (Sobre el procesamiento de palabras puede que olvide algo, pero lo que tengo en mente es un estudio de neuroimagen en el que se observó que las palabras semánticamente relacionadas tienden a mostrar patrones de actividad cerebra
RT @StanDehaene: PS some of the relevant tools and recent ideas : https://t.co/BzZeO6koA4 https://t.co/pOhkbkYWOS https://t.co/61YDCmZeye h…
RT @StanDehaene: PS some of the relevant tools and recent ideas : https://t.co/BzZeO6koA4 https://t.co/pOhkbkYWOS https://t.co/61YDCmZeye h…
RT @StanDehaene: PS some of the relevant tools and recent ideas : https://t.co/BzZeO6koA4 https://t.co/pOhkbkYWOS https://t.co/61YDCmZeye h…
RT @StanDehaene: PS some of the relevant tools and recent ideas : https://t.co/BzZeO6koA4 https://t.co/pOhkbkYWOS https://t.co/61YDCmZeye h…
PS some of the relevant tools and recent ideas : https://t.co/BzZeO6koA4 https://t.co/pOhkbkYWOS https://t.co/61YDCmZeye https://t.co/nqiI3B15S8 https://t.co/HCGK2RuheM https://t.co/vNCfD9DzEV @alexanderhuth @BertrandThirion @GaelVaroquaux @doristsao @gall
US: Different words activate different areas in our brains (left + right, deeper + more surfaced) • Semantic maps tile our brains | @gallantlab at UCLA | paper via @nature | 2016 https://t.co/HJ6wvaFaP7 | Watch this short, fascinating documentary 📺▶️ https
RT @kamaci_furkan: @UCBerkeley'de; dinlediğimiz veya okuduğumuz kelimelerin beynin hangi bölgelerini aktive ettiğine dair iki önemli çalışm…
@UCBerkeley'de; dinlediğimiz veya okuduğumuz kelimelerin beynin hangi bölgelerini aktive ettiğine dair iki önemli çalışma bulunmakta. + https://t.co/wkrToDPTDg https://t.co/o5H0Obw6ID #MachineLearning #NLP #cognitive #AI #Python #brain https://t.co/S1Qa
RT @RBoshra: @BAristimunha @AISC_TO @susan_shuc Thank you @BAristimunha :) Included some examples below. Some will be presented soon by th…
@BAristimunha @AISC_TO @susan_shuc Thank you @BAristimunha :) Included some examples below. Some will be presented soon by the authors too!! Consc.: https://t.co/Bb1FtZ2bc3 Path.: https://t.co/dkCwJb7e2D Lang.: https://t.co/fS8yqv3qa0 Sens.: https://t.co
RT @neurosocialself: US: Natural speech reveals semantic maps that tile our brain | Research by @alex_ander & @gallantlab | Nature | May 20…
US: Natural speech reveals semantic maps that tile our brain | Research by @alex_ander & @gallantlab | Nature | May 2016 | https://t.co/hAcuwzN9p5 https://t.co/okEQGRV6PF
@Ansis_Stabingis @ReinisLazda @inese_putniece Vai tad valodu neatceramies? Vizualizācija balstīta uz pētījuma datiem par semantisko sistēmu smadzenēs. Jeb “kur atrodas vārdi”. Smadzenēs nav “centru”, tās drīzāk darbojas, balstoties uz plaši izkliedētiem tī
Semantic (meaning) maps across the human cortex - brilliant work this - ML & brain imaging = 🤩 - note how the main semantic dimensions relate to activity in frontal areas & between visual & auditory areas. https://t.co/7jzbdAtfnF
A nivel anatómico, el lenguaje está repartido por todo el hemisferio izquierdo y parte del derecho: “Natural speech reveals the semantic maps that tile human cerebral cortex”. Huth´16 https://t.co/Jhk8i4BkYv Recomendación de @AaronDelOlmo en #neurodem
A semantic atlas of the cerebral cortex https://t.co/zpHD43elYH https://t.co/uhYuwlHqZe
Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/AtLPFCLBYt
In my 2016 paper (https://t.co/KToGW4yTRB) I transformed each word heard by the subject into a set of semantic features, and then used ridge regression (standard, spherical gaussian prior) to build models that predict BOLD from those features
Has anyone tried to contact #Nature directly? Hi @Magda_Skipper. Sorry for bothering, but it seems authors of this paper are not willing to comply with he data sharing policies of @nature https://t.co/hc3TRGxVWh Maybe some of your staf can follow this i
The actual data sharing plans relevant to the discussion. Nice work @GreeneScientist! https://t.co/XCXUcQtqZU
The paper in question seems to be this one. https://t.co/ESBP6ZMeaN It was partially funded by the National Eye Institute (EY019684). I submitted a FOIA request to the institute to get the resource sharing plan. Given the time I wasn't sure if it was the
RT @NeuroStats: @KordingLab @raamana_ @talyarkoni Experimental design can help draw out uniquely/selectively predictive features as in http…
@KordingLab @raamana_ @talyarkoni Experimental design can help draw out uniquely/selectively predictive features as in https://t.co/3mNYLgpcWc. Otherwise, all one can really do is establish that there exists predictive content in features and do your best
RT @NatureNews: Interactive brain map charts which areas respond to hearing different words. Full paper: https://t.co/2CzOGTyun2 https://t.…
RT @gallantlab: Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm…
RT @gallantlab: Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm…
RT @gallantlab: Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm…
RT @gallantlab: Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm…
RT @gallantlab: Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm…
Check out this awesome algorithm paper from @alex_ander ! This is a key part of his attempt to make the PrAGMATiC algorithm (see Huth et al. 2016 [https://t.co/jmiV22Rrzo]) run fast enough for regular use. https://t.co/frO1KJ2Cr1
RT @yuji_ikegaya: 物語を聞かせながらfMRIで脳活動を記録。単語に応じて活性化する箇所が大脳皮質に分散していたため、「意味の脳地図」が完成したそうです。今朝の『ネイチャー』誌より→https://t.co/A9bwsD7Nft(地図映像はこちら→https:/…
Fascinating study into semantic mapping of brain regions Subjects heard stories in fMRI scanner to reveal fairly consistent regions/associations for words @baal_lkale @SHUCDARE Natural speech reveals the semantic maps that tile human cerebral cortex https:
Understanding #stories requires many #cognitive processes; activates entire brain. - Alex Huth #Storytelling| Nature https://t.co/IHiK57xwDe
علم الأعصاب: مخاطر قراءة المخ راسل بولدراك قَيِّم راسل بولدراك واحدًا من أوائل الكتب حول الآثار المترتبة على... https://t.co/9gYBaJXOTm
RT @CraigBradleyF1: #ICPIC17 @SafeSaferSafest: Fascinating work, words matter: https://t.co/AKTW99yZ9V Looking forward to seeing how this d…
#ICPIC17 @SafeSaferSafest: Fascinating work, words matter: https://t.co/AKTW99yZ9V Looking forward to seeing how this develops for IPC
RT @tomoxl: Language decoding discovery has major implications for neural interfacing. Imagine semantic BCI features @alex_ander https://t.…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @mnitabach: Submitted January 8, 2014!! https://t.co/KY2YYoflXp
this is....wow. https://t.co/R2Qoytg1Dv
RT @mnitabach: Submitted January 8, 2014!! https://t.co/KY2YYoflXp
Submitted January 8, 2014!! https://t.co/KY2YYoflXp
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
RT @moorejh: Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://…
Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/POvuPpN3wR #brain #neuroscience https://t.co/ZNFh5XC3s9
RT @patrickmineault: Morning commute reading -- Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/G1X3x…
Morning commute reading -- Natural speech reveals the semantic maps that tile human cerebral cortex https://t.co/G1X3x9IaTl @gallantlab https://t.co/6GQCESevVV
Very cool.... see author manuscript at @PubMed https://t.co/l1ujgnfL8l https://t.co/3NQyWXPlLR
RT @YasserAlbaty: البحث نشر بالأمس في مجلة "نيتشر" الشهيرة وقد أجراه باحثون في قسم الأعصاب في جامعة كاليفورنيا بركلي. هنا رابطه: https://t.…
RT @vukovicnikola: Barsalou: In the Huth et al. study (https://t.co/bB37NZCWjY) 7 participants were scanned on 985 words/topics while liste…
Barsalou: In the Huth et al. study (https://t.co/bB37NZCWjY) 7 participants were scanned on 985 words/topics while listening to stories...
@RichardSocher cool article. Seen natural language semantic map of brain? https://t.co/jsX9ONhoaL
RT @gp_pulipaka: Natural speech reveals the semantic maps of the #brain. #BigData #DeepLearning #MachineLearning #DataScience #AI https:…
RT @NatureNews: Interactive brain map charts which areas respond to hearing different words. Full paper: https://t.co/2CzOGTyun2 https://t.…
RT @DannyDPurb: Interactive #brain #map shows which areas respond to #hearing different #words #Neuroscience https://t.co/ZHFTSrltvP https:…