@AlonZivony @bradpwyble @ChloeCallahan1 @ceptional Also some of the papers by Marti & Dehaene might be relevant, e.g. https://t.co/nBbU631WpB
RT @ged10: 'Humans can reliably detect a target picture even when tens of images are flashed every second.'( Dehaene's Reading in the Brain…
RT @ged10: 'Humans can reliably detect a target picture even when tens of images are flashed every second.'( Dehaene's Reading in the Brain…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
Have I retweeted this already? This is great! https://t.co/pxVTZVrCaQ
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
Discrete and continuous mechanisms of temporal selection in rapid visual streams | Nature Communications https://t.co/oJn7nN1pe6
RT @anilkseth: Interesting new work by @StanDehaene and Sebastian Marti https://t.co/e5ZT091CzP
Interesting new work by @StanDehaene and Sebastian Marti https://t.co/e5ZT091CzP
https://t.co/oLFoPHlsAt Discrete and continuous mechanisms of temporal selection in rapid visual streams
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @introspection: Discrete & Continuous Mechanisms of Temporal Selection in Rapid Visual Streams https://t.co/mnLWWSbDkN https://t.co/Renr…
https://t.co/ywOQ2jRiaF Discrete and continuous mechanisms of temporal selection in rapid visual streams
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @introspection: Discrete & Continuous Mechanisms of Temporal Selection in Rapid Visual Streams https://t.co/mnLWWSbDkN https://t.co/Renr…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @introspection: Discrete & Continuous Mechanisms of Temporal Selection in Rapid Visual Streams https://t.co/mnLWWSbDkN https://t.co/Renr…
Discrete & Continuous Mechanisms of Temporal Selection in Rapid Visual Streams https://t.co/mnLWWSbDkN https://t.co/RenrKHSKwV
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
New research by Marti & Dehaene on the selection for conscious processing. https://t.co/layPUJcMSN
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @ged10: 'Humans can reliably detect a target picture even when tens of images are flashed every second.'( Dehaene's Reading in the Brain…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
'Humans can reliably detect a target picture even when tens of images are flashed every second.'( Dehaene's Reading in the Brain demonstrated that ppl read phoneme by phoneme-a fact that many phonics deniers find hard to understand.} https://t.co/CCfKQVSWG
RT @StanDehaene: New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)..…
New paper from the lab: Sébastien Marti used MEG to decode each successive picture in a fast stream (RSVP, 116 ms/image)... and to probe the continuous and discrete selection mechanisms which allow one of them to be consciously reported. https://t.co/394bq
RT @NatureComms: We can detect visual images of interest even when they are presented very quickly. #neuroscience explains how multiple ima…
RT @NatureComms: We can detect visual images of interest even when they are presented very quickly. #neuroscience explains how multiple ima…
Discrete and continuous mechanisms of temporal selection in rapid visual streams https://t.co/mZLqj8HtUu
RT @NatureComms: We can detect visual images of interest even when they are presented very quickly. #neuroscience explains how multiple ima…
RT @NatureComms: We can detect visual images of interest even when they are presented very quickly. #neuroscience explains how multiple ima…
We can detect visual images of interest even when they are presented very quickly. #neuroscience explains how multiple images are processed in parallel by the brain and how temporal selection can isolate single images @StanDehaene https://t.co/2B72Maect0
Discrete and continuous mechanisms of temporal selection in rapid visual streams https://t.co/dKWVhon548 v/ @NatureNews https://t.co/G5cN5LkMs0
Discrete and continuous mechanisms of temporal selection in rapid visual streams https://t.co/hBV84Si6Vf https://t.co/eu547zAYPA