arminpanjehpour
- Reposted by arminpanjehpour🚨🧵 Happy to share my new preprint “Sensory expectations and prediction error during feedback control in the human brain” with @gribblelab.org , @andpru.bsky.social , @jonathanamichaels.bsky.social and @diedrichsenjorn.bsky.social. www.biorxiv.org/content/10.6...
- Reposted by arminpanjehpourJoin us for Fall 2026. In our group, you can run studies from human behavior and neuroimaging, to large-scale NHP ephys, and join them up with a robust computational foundation. Bonus: you can help build the reading list.
- The Sensorimotor Superlab with @gribblelab.org and @andpru.bsky.social is a unique place to work and learn. We are now accepting MSc and PhD applications for Fall 2026. Join our awesome team at Western University... For application instructions see diedrichsenlab.org and gribblelab.org/join.html!
- Reposted by arminpanjehpourThe Sensorimotor Superlab with @gribblelab.org and @andpru.bsky.social is a unique place to work and learn. We are now accepting MSc and PhD applications for Fall 2026. Join our awesome team at Western University... For application instructions see diedrichsenlab.org and gribblelab.org/join.html!
- 0/7 Excited to 📢 that our (@mkashefi.bsky.social @diedrichsenjorn.bsky.social @andpru.bsky.social) new preprint on sequence preparation and its effect on reaction time is now up: www.biorxiv.org/content/10.1... Please get in touch if there is anything you'd like to discuss! Brief summary 🧵👇
- 1/7 A core behavioral finding from earlier behavioral studies is that reaction time (RT) increases when participants are presented with longer sequences, and this indicates that individuals prepare multiple movements prior to initiating the first movement in the sequence.
- 2/7 Here, using a sequential reaching paradigm, we tested whether the RT increases with longer sequences are actually driven by sequence preparation, or whether they are, to some extent, caused by participants facing greater ambiguity in selecting their first movement in the longer sequence.
-
View full thread8/7 Our future work aims to uncover the neural mechanisms underlying these rapid, coarticulated reaching sequences in NHPs performing the same task. Stay tuned!
