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#saccade — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #saccade, aggregated by home.social.

  1. @marcwhoward oh I should clarify: my low prediction error is because I fully expect rich movement correlates brain wide, as we’ve seen with #corollarydischarge #activesensing especially #saccade related effects in #activevision. Movement initiation offers a path into the brains internal timing. Working back we can see ways in which neurons care more about their fellow neurons than they do about “the world out there”, and that sensing absent movement is more the exception than the rule. Animals are…animate. Plants….plant. Look at me all “brain inside out”. I try not to be too constructivist, but I Kant. No shade whatsoever to actually conducting the challenging experiments that measure and materialize this idea, and tell us more about how and where movement effects are seen!

  2. @marcwhoward oh I should clarify: my low prediction error is because I fully expect rich movement correlates brain wide, as we’ve seen with #corollarydischarge #activesensing especially #saccade related effects in #activevision. Movement initiation offers a path into the brains internal timing. Working back we can see ways in which neurons care more about their fellow neurons than they do about “the world out there”, and that sensing absent movement is more the exception than the rule. Animals are…animate. Plants….plant. Look at me all “brain inside out”. I try not to be too constructivist, but I Kant. No shade whatsoever to actually conducting the challenging experiments that measure and materialize this idea, and tell us more about how and where movement effects are seen!

  3. @marcwhoward oh I should clarify: my low prediction error is because I fully expect rich movement correlates brain wide, as we’ve seen with #corollarydischarge #activesensing especially #saccade related effects in #activevision. Movement initiation offers a path into the brains internal timing. Working back we can see ways in which neurons care more about their fellow neurons than they do about “the world out there”, and that sensing absent movement is more the exception than the rule. Animals are…animate. Plants….plant. Look at me all “brain inside out”. I try not to be too constructivist, but I Kant. No shade whatsoever to actually conducting the challenging experiments that measure and materialize this idea, and tell us more about how and where movement effects are seen!

  4. @marcwhoward oh I should clarify: my low prediction error is because I fully expect rich movement correlates brain wide, as we’ve seen with #corollarydischarge #activesensing especially #saccade related effects in #activevision. Movement initiation offers a path into the brains internal timing. Working back we can see ways in which neurons care more about their fellow neurons than they do about “the world out there”, and that sensing absent movement is more the exception than the rule. Animals are…animate. Plants….plant. Look at me all “brain inside out”. I try not to be too constructivist, but I Kant. No shade whatsoever to actually conducting the challenging experiments that measure and materialize this idea, and tell us more about how and where movement effects are seen!

  5. @marcwhoward oh I should clarify: my low prediction error is because I fully expect rich movement correlates brain wide, as we’ve seen with #corollarydischarge #activesensing especially #saccade related effects in #activevision. Movement initiation offers a path into the brains internal timing. Working back we can see ways in which neurons care more about their fellow neurons than they do about “the world out there”, and that sensing absent movement is more the exception than the rule. Animals are…animate. Plants….plant. Look at me all “brain inside out”. I try not to be too constructivist, but I Kant. No shade whatsoever to actually conducting the challenging experiments that measure and materialize this idea, and tell us more about how and where movement effects are seen!

  6. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems?

    Do brain oscillations play a role?

    Saccades are locked to the phase of alpha oscillations during natural reading
    journals.plos.org/plosbiology/

  7. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems?

    Do brain oscillations play a role?

    Saccades are locked to the phase of alpha oscillations during natural reading
    journals.plos.org/plosbiology/

  8. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems?

    Do brain oscillations play a role?

    Saccades are locked to the phase of alpha oscillations during natural reading
    journals.plos.org/plosbiology/

  9. Your eyes will 3-5 times per second while you read this, but what coordinates oculomotor & visual systems?

    Do brain oscillations play a role?

    Saccades are locked to the phase of alpha oscillations during natural reading
    journals.plos.org/plosbiology/

  10. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  11. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  12. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  13. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  14. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  15. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  16. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  17. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  18. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  19. Your eyes will #saccade 3-5 times per second while you read this, but what coordinates oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades & visual system during natural reading #PLOSBiology plos.io/3kncpAY

  20. Our eyes #saccade 3-5 times per second when #reading, but what coordinates the oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades and the visual system during natural reading #PLOSBiology plos.io/3kncpAY

  21. Our eyes #saccade 3-5 times per second when #reading, but what coordinates the oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades and the visual system during natural reading #PLOSBiology plos.io/3kncpAY

  22. Our eyes #saccade 3-5 times per second when #reading, but what coordinates the oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades and the visual system during natural reading #PLOSBiology plos.io/3kncpAY

  23. Our eyes #saccade 3-5 times per second when #reading, but what coordinates the oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades and the visual system during natural reading #PLOSBiology plos.io/3kncpAY

  24. Our eyes #saccade 3-5 times per second when #reading, but what coordinates the oculomotor & visual systems? @YaliPan2 @neuosc &co show that alpha oscillations time the processing between saccades and the visual system during natural reading #PLOSBiology plos.io/3kncpAY