#v1 — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #v1, aggregated by home.social.
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🥳🎉 Behold! #Cate v1.0: The latest attempt to make #developers feel special by giving them an "infinite canvas" to doodle their bugs on. 😏 So strap in, folks, because now you can display all your #coding #disasters in one place while #GitHub tries to convince you that #AI can fix bad code. 🖥️💥
https://github.com/0-AI-UG/cate #v1.0 #infinite #canvas #HackerNews #ngated -
🥳🎉 Behold! #Cate v1.0: The latest attempt to make #developers feel special by giving them an "infinite canvas" to doodle their bugs on. 😏 So strap in, folks, because now you can display all your #coding #disasters in one place while #GitHub tries to convince you that #AI can fix bad code. 🖥️💥
https://github.com/0-AI-UG/cate #v1.0 #infinite #canvas #HackerNews #ngated -
🥳🎉 Behold! #Cate v1.0: The latest attempt to make #developers feel special by giving them an "infinite canvas" to doodle their bugs on. 😏 So strap in, folks, because now you can display all your #coding #disasters in one place while #GitHub tries to convince you that #AI can fix bad code. 🖥️💥
https://github.com/0-AI-UG/cate #v1.0 #infinite #canvas #HackerNews #ngated -
🥳🎉 Behold! #Cate v1.0: The latest attempt to make #developers feel special by giving them an "infinite canvas" to doodle their bugs on. 😏 So strap in, folks, because now you can display all your #coding #disasters in one place while #GitHub tries to convince you that #AI can fix bad code. 🖥️💥
https://github.com/0-AI-UG/cate #v1.0 #infinite #canvas #HackerNews #ngated -
🥳🎉 Behold! #Cate v1.0: The latest attempt to make #developers feel special by giving them an "infinite canvas" to doodle their bugs on. 😏 So strap in, folks, because now you can display all your #coding #disasters in one place while #GitHub tries to convince you that #AI can fix bad code. 🖥️💥
https://github.com/0-AI-UG/cate #v1.0 #infinite #canvas #HackerNews #ngated -
Cate v1.0 is out: The Infinite canvas workspace for developers
https://github.com/0-AI-UG/cate
#HackerNews #Cate #v1.0 #InfiniteCanvas #developers #workspace #GitHub #productivity
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Cate v1.0 is out: The Infinite canvas workspace for developers
https://github.com/0-AI-UG/cate
#HackerNews #Cate #v1.0 #InfiniteCanvas #developers #workspace #GitHub #productivity
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Cate v1.0 is out: The Infinite canvas workspace for developers
https://github.com/0-AI-UG/cate
#HackerNews #Cate #v1.0 #InfiniteCanvas #developers #workspace #GitHub #productivity
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Cate v1.0 is out: The Infinite canvas workspace for developers
https://github.com/0-AI-UG/cate
#HackerNews #Cate #v1.0 #InfiniteCanvas #developers #workspace #GitHub #productivity
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Cate v1.0 is out: The Infinite canvas workspace for developers
https://github.com/0-AI-UG/cate
#HackerNews #Cate #v1.0 #InfiniteCanvas #developers #workspace #GitHub #productivity
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linkdingX v1.0.0 is out. 🚀
The initial stable release of the persistent sidepanel companion for linkding.
- 📵 Offline-first with IndexedDB
- 📌 Persistent sidepanel UI
- 🔄 Background server sync
- ⏱️ Real-time tab metadata trackingIf you find it useful, a star is always appreciated! ❤️
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Syeda, …, @computingnature et al., bioRxiv (2026) find that #NeuralActivity in #mouse #VisualCortex is dominated by #orofacial movements, not eye movements. Across darkness and visual stimulation, eye movements explain only a small fraction of neural variance and are largely correlated with whisking and sniffing. Movement signals thus strongly shape #V1 activity during free viewing.
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Syeda, …, @computingnature et al., bioRxiv (2026) find that #NeuralActivity in #mouse #VisualCortex is dominated by #orofacial movements, not eye movements. Across darkness and visual stimulation, eye movements explain only a small fraction of neural variance and are largely correlated with whisking and sniffing. Movement signals thus strongly shape #V1 activity during free viewing.
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Syeda, …, @computingnature et al., bioRxiv (2026) find that #NeuralActivity in #mouse #VisualCortex is dominated by #orofacial movements, not eye movements. Across darkness and visual stimulation, eye movements explain only a small fraction of neural variance and are largely correlated with whisking and sniffing. Movement signals thus strongly shape #V1 activity during free viewing.
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Syeda, …, @computingnature et al., bioRxiv (2026) find that #NeuralActivity in #mouse #VisualCortex is dominated by #orofacial movements, not eye movements. Across darkness and visual stimulation, eye movements explain only a small fraction of neural variance and are largely correlated with whisking and sniffing. Movement signals thus strongly shape #V1 activity during free viewing.
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Syeda, …, @computingnature et al., bioRxiv (2026) find that #NeuralActivity in #mouse #VisualCortex is dominated by #orofacial movements, not eye movements. Across darkness and visual stimulation, eye movements explain only a small fraction of neural variance and are largely correlated with whisking and sniffing. Movement signals thus strongly shape #V1 activity during free viewing.
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🧠 New preprint by Tilbury et al: Characterizing #NeuronalPopulation geometry with #AI equation discovery
The approach generates & evaluates 100s of candidate equations, finding "peaky" non-Gaussian tuning functions whose Fourier structure matches power-law dimensionality observed in real #V1 pops. Links shape of single-#neuron tuning to #PopulationLevel geometry using both data fits & analytical derivations.
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Enhancing visual brain-computer interface through #V1-targeted #rTMS by modulating visual attention https://direct.mit.edu/imag/article/doi/10.1162/IMAG.a.1013/133736/Enhancing-visual-brain-computer-interface-through "rTMS-induced enhancements in visual attention"; #BCI #NeuroTech
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Mesdames et messieurs, après des semaines d’absence…ils sont de retour. Vous vous attendiez au retour des Daft Punk mais vous aurez le retour…de Stéphane et Rawad.
Et oui après des semaines, le projet Incubateur sobre est enfin publié et devient maintenant le projet IncubaTech. Ainsi vous pourrez consulter la toute première et véritable V1 de notre projet via ce lien :
https://lownum.scenari-community.org/projets/is03-25a/Incubateur/co/0-presentation.html -
Bonjour,
Après plusieurs semaines de travail, nous vous partageons enfin la v1 de notre projet de désescalade numérique.
https://lownum.scenari-community.org/projets/is03-25a/desescalade/co/0-presentation.htmlN'hésitez pas à nous faire des retours ^^
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Bonjour à tous,
Voici une version un peu améliorée de notre projet Framaletmego. Elle a été réalisée dans le cadre de l’UV IS03, encadrée par Stéphane Crozat.
Un grand merci à @bortzmeyer et Catherine Letondal pour leur accompagnement dans notre réflexion.
Nous sommes à l’écoute de toute sorte de retours ou de questions concernant ce travail.
@stph #lownum #IS03 #v1https://lownum.scenari-community.org/projets/is03-25a/framaletmego
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Bonjour,
La V1 du projet est désormais terminée et accessible via le lien suivant : https://lownum.scenari-community.org/projets/is03-25a/framamia/co/0-presentation.htmlIl amène vers le site de présentation de notre projet et vous pourrez y apprécier les quelques modifications et additions qui ont été faites par rapport à notre version 0.
Ce projet est toujours mené avec l'aide de @stph et @mgubri
En espérant que ça vous plaise,
Très bonne journée à vous :) -
Bonjour à tous,
Retrouvez la première version de notre projet Diser en suivant ce lien : https://lownum.scenari-community.org/projets/is03-25a/Diser/co/0-presentation.html
Ce projet, qui vise à imaginer des dispositifs sobres pour l'expérimentation paysanne, est une idée d'@odalricambrymmaillard, qui est chargé de recherche Inria.Merci pour l'intérêt que vous y porterez !
#diser #agriculture #IS03 #V1 -
a quick sketch i hope i see Isaac in the next episode on indie cross #bindingofisaac #Isaac #v1 #ultrakill #shovelknight #hollowknight #deadcells #hyperlightdrifter #cuphead #riskofrain #Undertale #Blasphemous #INDIECROSS
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1678035/full #crossmodal #integration #plasticity #V1 #neuroscience
"The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1678035/full #crossmodal #integration #plasticity #V1 #neuroscience
"The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1678035/full #crossmodal #integration #plasticity #V1 #neuroscience
"The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1678035/full #crossmodal #integration #plasticity #V1 #neuroscience
"The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1678035/full #crossmodal #integration #plasticity #V1 #neuroscience
"The observed transition from hub-dominated to distributed architecture challenges traditional views of fixed sensory processing hierarchies while supporting emerging theories of dynamic cortical reorganization."
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Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) www.frontiersin.org/journals/neu... #crossmodal #integration #plasticity #V1 #neuroscience
Frontiers | Network topologica... -
Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) www.frontiersin.org/journals/neu... #crossmodal #integration #plasticity #V1 #neuroscience
Frontiers | Network topologica... -
Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) www.frontiersin.org/journals/neu... #crossmodal #integration #plasticity #V1 #neuroscience
Frontiers | Network topologica... -
Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) www.frontiersin.org/journals/neu... #crossmodal #integration #plasticity #V1 #neuroscience
Frontiers | Network topologica... -
Network topological reorganization mechanisms of primary visual cortex under multimodal stimulation (in mice) www.frontiersin.org/journals/neu... #crossmodal #integration #plasticity #V1 #neuroscience
Frontiers | Network topologica... -
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🧠 Excited to share our latest research presented at #CNS2025 in beautiful Firenze, Italy!
"Population decoding of visual motion direction in V1 marmoset monkey: effects of uncertainty"
Our work explores how populations of neurons in the primary visual cortex (V1) of marmoset monkeys encode visual motion direction, with a particular focus on understanding how uncertainty influences this neural decoding process.
Key highlights:- Advanced population-level analysis of V1 neural responses to motion stimuli
- Novel insights into how the brain handles uncertainty in visual motion processing
- Marmoset model providing crucial translational insights for visual neuroscience
This research contributes to our fundamental understanding of how the visual system processes motion information at the earliest stages of cortical processing, with important implications for both basic neuroscience and potential clinical applications.
Thank you to the CNS organizing committee for hosting such an inspiring conference in the stunning venue of Palazzo dei Congressi in Villa Vittoria! 🇮🇹#ComputationalNeuroscience #VisualNeuroscience #MotionProcessing #CNS2025 #Neuroscience #Research #MarmosetModel #V1 #PopulationDecoding
Link to publication: https://laurentperrinet.github.io/publication/laine-25-cns/
Want to learn more about uncertainty in the visual cortex? Check out our recent work published in Nature Communications Biology: https://laurentperrinet.github.io/publication//ladret-23
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🧠 Excited to share our latest research presented at #CNS2025 in beautiful Firenze, Italy!
"Population decoding of visual motion direction in V1 marmoset monkey: effects of uncertainty"
Our work explores how populations of neurons in the primary visual cortex (V1) of marmoset monkeys encode visual motion direction, with a particular focus on understanding how uncertainty influences this neural decoding process.
Key highlights:- Advanced population-level analysis of V1 neural responses to motion stimuli
- Novel insights into how the brain handles uncertainty in visual motion processing
- Marmoset model providing crucial translational insights for visual neuroscience
This research contributes to our fundamental understanding of how the visual system processes motion information at the earliest stages of cortical processing, with important implications for both basic neuroscience and potential clinical applications.
Thank you to the CNS organizing committee for hosting such an inspiring conference in the stunning venue of Palazzo dei Congressi in Villa Vittoria! 🇮🇹#ComputationalNeuroscience #VisualNeuroscience #MotionProcessing #CNS2025 #Neuroscience #Research #MarmosetModel #V1 #PopulationDecoding
Link to publication: https://laurentperrinet.github.io/publication/laine-25-cns/
Want to learn more about uncertainty in the visual cortex? Check out our recent work published in Nature Communications Biology: https://laurentperrinet.github.io/publication//ladret-23
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🧠 Excited to share our latest research presented at #CNS2025 in beautiful Firenze, Italy!
"Population decoding of visual motion direction in V1 marmoset monkey: effects of uncertainty"
Our work explores how populations of neurons in the primary visual cortex (V1) of marmoset monkeys encode visual motion direction, with a particular focus on understanding how uncertainty influences this neural decoding process.
Key highlights:- Advanced population-level analysis of V1 neural responses to motion stimuli
- Novel insights into how the brain handles uncertainty in visual motion processing
- Marmoset model providing crucial translational insights for visual neuroscience
This research contributes to our fundamental understanding of how the visual system processes motion information at the earliest stages of cortical processing, with important implications for both basic neuroscience and potential clinical applications.
Thank you to the CNS organizing committee for hosting such an inspiring conference in the stunning venue of Palazzo dei Congressi in Villa Vittoria! 🇮🇹#ComputationalNeuroscience #VisualNeuroscience #MotionProcessing #CNS2025 #Neuroscience #Research #MarmosetModel #V1 #PopulationDecoding
Link to publication: https://laurentperrinet.github.io/publication/laine-25-cns/
Want to learn more about uncertainty in the visual cortex? Check out our recent work published in Nature Communications Biology: https://laurentperrinet.github.io/publication//ladret-23
-
🧠 Excited to share our latest research presented at #CNS2025 in beautiful Firenze, Italy!
"Population decoding of visual motion direction in V1 marmoset monkey: effects of uncertainty"
Our work explores how populations of neurons in the primary visual cortex (V1) of marmoset monkeys encode visual motion direction, with a particular focus on understanding how uncertainty influences this neural decoding process.
Key highlights:- Advanced population-level analysis of V1 neural responses to motion stimuli
- Novel insights into how the brain handles uncertainty in visual motion processing
- Marmoset model providing crucial translational insights for visual neuroscience
This research contributes to our fundamental understanding of how the visual system processes motion information at the earliest stages of cortical processing, with important implications for both basic neuroscience and potential clinical applications.
Thank you to the CNS organizing committee for hosting such an inspiring conference in the stunning venue of Palazzo dei Congressi in Villa Vittoria! 🇮🇹#ComputationalNeuroscience #VisualNeuroscience #MotionProcessing #CNS2025 #Neuroscience #Research #MarmosetModel #V1 #PopulationDecoding
Link to publication: https://laurentperrinet.github.io/publication/laine-25-cns/
Want to learn more about uncertainty in the visual cortex? Check out our recent work published in Nature Communications Biology: https://laurentperrinet.github.io/publication//ladret-23
-
🧠 Excited to share our latest research presented at #CNS2025 in beautiful Firenze, Italy!
"Population decoding of visual motion direction in V1 marmoset monkey: effects of uncertainty"
Our work explores how populations of neurons in the primary visual cortex (V1) of marmoset monkeys encode visual motion direction, with a particular focus on understanding how uncertainty influences this neural decoding process.
Key highlights:- Advanced population-level analysis of V1 neural responses to motion stimuli
- Novel insights into how the brain handles uncertainty in visual motion processing
- Marmoset model providing crucial translational insights for visual neuroscience
This research contributes to our fundamental understanding of how the visual system processes motion information at the earliest stages of cortical processing, with important implications for both basic neuroscience and potential clinical applications.
Thank you to the CNS organizing committee for hosting such an inspiring conference in the stunning venue of Palazzo dei Congressi in Villa Vittoria! 🇮🇹#ComputationalNeuroscience #VisualNeuroscience #MotionProcessing #CNS2025 #Neuroscience #Research #MarmosetModel #V1 #PopulationDecoding
Link to publication: https://laurentperrinet.github.io/publication/laine-25-cns/
Want to learn more about uncertainty in the visual cortex? Check out our recent work published in Nature Communications Biology: https://laurentperrinet.github.io/publication//ladret-23
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In their study, Morales-Gregorio et al. show that #NeuralManifolds in #V1 shift dynamically under top-down influence from #V4. They identify two distinct population activity states – eyes open vs. closed – with notably stronger V4→V1 signaling in the foveal region during eyes-open periods. A cool example of how cognitive context reshapes visual cortical dynamics.
🌍 https://www.cell.com/cell-reports/fulltext/S2211-1247(24)00699-5
#CompNeuro #Neuroscience #VisualCortex #NeuralManifolds #SystemsNeuroscience
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In their study, Morales-Gregorio et al. show that #NeuralManifolds in #V1 shift dynamically under top-down influence from #V4. They identify two distinct population activity states – eyes open vs. closed – with notably stronger V4→V1 signaling in the foveal region during eyes-open periods. A cool example of how cognitive context reshapes visual cortical dynamics.
🌍 https://www.cell.com/cell-reports/fulltext/S2211-1247(24)00699-5
#CompNeuro #Neuroscience #VisualCortex #NeuralManifolds #SystemsNeuroscience
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In their study, Morales-Gregorio et al. show that #NeuralManifolds in #V1 shift dynamically under top-down influence from #V4. They identify two distinct population activity states – eyes open vs. closed – with notably stronger V4→V1 signaling in the foveal region during eyes-open periods. A cool example of how cognitive context reshapes visual cortical dynamics.
🌍 https://www.cell.com/cell-reports/fulltext/S2211-1247(24)00699-5
#CompNeuro #Neuroscience #VisualCortex #NeuralManifolds #SystemsNeuroscience
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In their study, Morales-Gregorio et al. show that #NeuralManifolds in #V1 shift dynamically under top-down influence from #V4. They identify two distinct population activity states – eyes open vs. closed – with notably stronger V4→V1 signaling in the foveal region during eyes-open periods. A cool example of how cognitive context reshapes visual cortical dynamics.
🌍 https://www.cell.com/cell-reports/fulltext/S2211-1247(24)00699-5
#CompNeuro #Neuroscience #VisualCortex #NeuralManifolds #SystemsNeuroscience