🎓 15 fully funded #PhD positions in EU-funded Doctoral Network. 🧪🧠
We lead Project 7 (@spinozacentre.bsky.social & @nin-knaw.bsky.social): 4-year PhD combining 7T MRI + MEG with computational modelling of vision & individual differences.
Apply: indibrain.eu
#AcademicJobs
Excited to share that my first article is now published in Communications Biology!
Humans and many animals have an innate ability to rapidly perceive numerosity—the number of objects in a visual scene. But how does our brain process this fundamental capability?
Read the full paper: rdcu.be/eRxMi
Communications Biology - Numerosity adaptation suppresses monotonic neural responses to numerosity displays in the early visual cortex, with more suppression for higher numerosity adaptors....
Characterizing individual brain differences to advance personalized diagnosis, treatment, and sustainable healthcare
indibrain.eu
Serge Dumoulin
Liangyou Zhang
🧠 PhD position: computational brain origami.
Fully funded 4-year PhD on a new NWO-funded project combining 7T MRI, population receptive field mapping, and computational neuroscience to understand why human brains fold the way they do.
📢 vacatures.knaw.nl/job/Amsterda...
#PhD #Neuroscience #Hiring
With Shir Hofstetter and @dagnsci.bsky.social at @nin-knaw.bsky.social and @spinozacentre.bsky.social
In sports, we celebrate 1st, 2nd, 3rd. Everyone else gets lumped together. Why?
Using 7T MRI, pRF modelling, and artificial neural networks, we show that tuning underlies ordinality perception, with most neural populations preferring early ordinalities.
doi.org/10.1523/JNEU...
🧪🧠
15 fully funded PhD positions in EU-funded Doctoral Network (IndiBrain).
We lead Project 7 (@spinozacentre.bsky.social, @nin-knaw.bsky.social): biologically inspired models of individual observers combining 7T MRI + MEG, focusing on vision and recurrent processing. 4-year PhD.
Apply: indibrain.eu
