Fred Crevecoeur
Senior Research Fellow, F.R.S.-FNRS, UCLouvain, WEL Research Institute, research on neuroscience, motor control, systems and control theory. Scientific account, publications, events...
scholar.google.com/citations?user=-EEf…
- 🚨🚨 We're hiring !! Looking for postdoc? Come work in an international, collaborative and stimulating environment on mechanisms of human upper limb motor control 👇👇👇 euraxess.ec.europa.eu/jobs/386645
- Preprint alert 🚨:Measured and modelled transitions between self-paced walking and synchronization with rhythmic auditory cues 👇 www.biorxiv.org/content/10.1...
- When we walk spontaneously or follow a metronome, we modulate the gait control strategy in a way that is not directly visible from pace and variability, instead it is the autocorrelation function that changes over long timescales
- Here we show how these changes in control strategy are modulated by auditory inputs and how they can be simulated in theory: the model suggests that the change is really fast (1 stride?) but the consequence is only visible after long stride series...
- The computational approach developed here could be a powerful mean to assess goal-directed changes in gait control in clinical populations... (stay tuned ! 😉 )
- In Munich for the 2nd European Motor Control Conference, many thanks to the organisers !
- Reposted by Fred CrevecoeurNew York Times story with profiles of researchers whose grants were terminated. [Gift Link] www.nytimes.com/2025/08/24/o...
- When we reach for an object, we adapt to unexpected dynamics and respond to disturbances. These two mechanisms work online, and when you perturb them at the right time, you can see interference... Full story ➡️ www.biorxiv.org/content/10.1...
- In Maastricht for @ispgr.bsky.social, come check our work this afternoon ! P02-M-100 by Clémence Vandamme
- Lab outing, science food and drinks :) Group pic credit @delhayeben.bsky.social & Bouillon castle
- Fred Crevecoeur @fredericcrevec1 🚨preprint time by @harikalidindi.bsky.social for our work on neural population dynamics: we show that features of neural population activity during reaching emerge from a simple linear body-network system 🧵👇 biorxiv.org/content/10.1...
- I am very happy to share our work with @fredcrevecoeur.bsky.social Here, we move away from the complexity of training a neural network and ask - what minimal ingredients produce motor‑cortex-style dynamics? t.co/MkLJcrzZdm
- This simple model (1) explains a lot of data, (2) makes direct prediction about population activity and low dimensional factors for any task and (3) provides a conceptual framework linking neural population activity and sensorimotor control...
- Amazing #cosyne25 @cosynemeeting.bsky.social Lots of feedback, tons of idea, wonderful exchanges !! @harikalidindi.bsky.social
- Here is the effect (or suppression of effect) of the double blind review process on reputation biases: www.youtube.com/live/wIf087q... Opening remarks @cosyne@confmaster.net
- In Delaware for lab visit and talk with Josh Cashaback. Wonderful time, lots if science going on here ! Random pick 👇
- The program for the next COSYNE meeting looks beyond awesome, very much looking forward to it ! ➡️ www.cosyne.org/main-meeting @cosynemeeting.bsky.social
- Reposted by Fred CrevecoeurAnnouncing a new week-long program for young computational neuroscience/ behavior professors to talk about rigorous science, mentoring, lab management, and networking in a stunning retreat setting. Do great science as a community and have fun doing so.
