🎧 Nouveau podcast Dans le coin du ciboulot 🧠
Arthur Desbois du NERV Lab répond à la question de Vladimir, 8 ans :
Mon cerveau peut‑il communiquer avec un ordinateur ? 🤖
À écouter ici : institutducerveau.org/podcasts/dan...
@institutducerveau.bsky.social @fondation-inria.bsky.social
🚀 How can we identify the brain regions that truly drive neural dynamics?
New results from the NERV Lab show that complex brain networks can be efficiently controlled through a surprisingly small set of dimensions 🔍🧠
👉 doi.org/10.1371/jour...
#Neuroscience #BrainNetworks
🧠 Toward an Adapted Neurofeedback for Post‑Stroke Motor Rehabilitation
👉 www.frontiersin.org/journals/hum...
A review by Laurent Bougrain from the Nerv Lab, with Salomé Le Franc et al. explores how #neurofeedback can be tailored to each patient’s profile to boost motor recovery after #stroke.
🚀 How does timing shape our connection with machines?
Imagining a movement just after a robot acts boosts brain decoding & the feeling of control 🧠🤖
Study on mental imagery & brain-computer interfaces:
👉 iopscience.iop.org/article/10.1...
👉 inria.hal.science/hal-04244638v1
#BCI #Neuroscience
🧠 New in @pnasnexus.org!
How can we simplify complex spatial networks, like brain or air traffic, without losing structure?
@fdevicofallani.bsky.social & Thibault Rolland reveal the economical geometry behind connectivity 🕸️
🔗 academic.oup.com/pnasnexus/ar...
#ComplexNetworks #DataViz #Neuroscience
🚀 UPLIFT joins the PIQ program!
Excited to kick off our 2‑year UPLIFT project, funded by @fondation-inria.bsky.social’s PIQ High‑Risk / High‑Impact program and supported by #France2030 🇫🇷
Exploring bold ideas in brain‑inspired computing in the NERV Lab 🧠⚙️
🔗 piq.inria.fr/projets/#UPL...
Great day at the World Brain Health Forum 2026 organised by @institutducerveau.bsky.social at @unesco.org! 🌍
🧠 The NERV Lab showcased its #BCI research to members of the @bkmfoundation.bsky.social. An inspiring exchange on brain health & emerging tech 💡
#WBHF2026
How structure hides in complexity 🧩
Using hyperbolic projections of multilayer networks, NERV Lab researchers reveal new patterns across brain & social systems.
📄 journals.aps.org/pre/abstract...
🎓 Congrats to Camile Bousfiha for brilliantly defending his MD thesis at the @institutducerveau.bsky.social!
“Early disruption of the blood–brain barrier after ischemic stroke.”
Already one paper published: silver medal distinction 👏
📄 pubmed.ncbi.nlm.nih.gov/40358714/
@upcite.bsky.social
Opinion piece from me on brain-computer interfaces 🤖 🦿🦾, out now in Nature Reviews Psychology: Bodily self-consciousness supports motor imagery doi.org/10.1038/s441... read-only link here: rdcu.be/eXIhb
18th December. Paris. Enjoyable moments with @nerv-lab.bsky.social celebrating #2025 and building up new energy for #2026
💫 As the year comes to an end, the NERV Lab sends warm wishes to all our collaborators, colleagues, and friends!
Happy holidays and see you in 2026 for more science and good energy! 💫
Layers, nodes… or both? 🌐
🧠 We explored node–layer duality, a framework revealing how multilayer networks can be understood from two complementary views.
👉 www.nature.com/articles/s41...
🚀 Excited to share that our project RECOVER has been selected for the Santé France 2025 program by the AXA Fund for Human Progress!
We’re developing non‑invasive brain‑computer interfaces to boost post‑stroke recovery.
More info here : axalive.fr/article/axa-...
@axafrance.bsky.social #BCI
Yesterday morning, @fdevicofallani.bsky.social from @nerv-lab.bsky.social shared how imagining motor tasks can boost brain connectivity, promoting faster recovery after stroke.
Missed the live session? Watch the full replay here: www.youtube.com/live/78rfXIs...
@institutducerveau.bsky.social
Left or right - which one is more connected?
Most say left, but here’s the twist: both have the same number of connections!
Why does one looks more connected? It’s all about #spatiality – how links occupy space.
Dive into our latest @pnasnexus.org t.ly/JzRsc
Arthur Desbois from @nerv-lab.bsky.social gave a showcase of HappyFeat, a software designed to guide experimenters during the feature selection process
@fdevicofallani.bsky.social from @nerv-lab.bsky.social presented examples of the use of brain networks as features for BCI rehabilitation in stroke patients.
Interested in components selection in CSP and attending @bcisociety.bsky.social meeting? Stop by @c-dumas.bsky.social's poster (P1-D-50) this afternoon! @nerv-lab.bsky.social @institutducerveau.bsky.social : 🚀
Wondering whether aperiodic signals could inform about mechanisms underlying BCI training? Stop by Camilla Mannino's poster today at @bcisociety.bsky.social meeting! ⚡ @nerv-lab.bsky.social @institutducerveau.bsky.social
Our last talk of the day goes to Fabrizio de Vico Fallani, who discussed very nicely how to apply node-layer duality to better understand Alzheimer's disease. Incredible way to close our #NetBioMed2025 at #NetSci2025!
@nerv-lab.bsky.social warming up @netsciconf.bsky.social #netsci2025 #maastricht
Honored to have been awarded the BCI Society Early Career Award 2025! 🧠✨
Huge thanks to the @bcisociety.bsky.social, and to all the brilliant people at @nerv-lab.bsky.social , @institutducerveau.bsky.social & Inria as well as mentors and peers in the broader BCI and neuroscience fields! 🙌
Amazing feeling when testing our nonvinvasive brain-computer interface prototype!
The opening of my hand is driven by the detection in real-time of my brain network changes!
Stay tuned for upcoming applications in stroke neurorehabilitation!
Kudos to @nerv-lab.bsky.social
A neural fingerprint approach to study brain dynamics in epilepsy. Spoiler: larger similarity with controls in dynamic reconfiguration corresponds to a better cognitive functioning!
Kudos to E. Troisi-Lopez & G.M. Duma! @pierpasorre.bsky.social
👉 www.cell.com/iscience/ful...
Key highlights:
✅ Kinectome outperforms PCA in classification accuracy
✅ Resilient to data loss & robust across derived measures
✅ Clear feature interpretability
✅ Potential applications in sports training, physical rehabilitation, and more!
Our research explores how network theory-based coordination properties (the "kinectome") can improve classification performance in movement analysis, offering a more interpretable, generalizable, and adaptable approach compared to traditional methods like PCA.
🚨 Preprint Alert 📝 🚨
Artificial Intelligence for automatic movement recognition: a network-based approach!
🔗 www.biorxiv.org/content/10.1...
A great collaboration with notably Emahnuel Troisi-Lopez & @pierpasorre.bsky.social! 🧵
🚨 Call for Papers: Special Session on "Decoding the Brain Time Series" at the IEEE MLSP 2025! 🚨
📅 Deadline: May 10, 2025
🔍 Topics of interest:
- Diagnosis tools
- ML and DL approaches for brain decoding
- BCI
More details on the call here:
mlsp2025-decoding-brain.github.io
Join us for a one-of-a-kind chat among network neuroscientists on topics including #multilayer #controllability and #AI
Featuring @danisbassett.bsky.social @petra_vertes @LindaDouw @misicbata
Live Dec 06, 2024 @MultilayerNets
Free registration t.ly/enXlU
