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#spikes — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #spikes, aggregated by home.social.

  1. Short-term #synaptic #plasticity (#STP) transiently modulates synaptic strength based on recent activity. #ShortTermDepression #STD reduces efficacy during repeated activity, while #ShortTermFacilitation #STF can enhance responses to closely spaced #spikes. These dynamics shape #NeuralProcessing, #filtering, and synaptic #homeostasis. Here's a short #Python implementation and simulation in #NESTSimulator:

    🌍 fabriziomusacchio.com/blog/202

    #CompNeuro #Neuroscience #NeuralDynamics #TsodyksMarkramModel

  2. Short-term #synaptic #plasticity (#STP) transiently modulates synaptic strength based on recent activity. #ShortTermDepression #STD reduces efficacy during repeated activity, while #ShortTermFacilitation #STF can enhance responses to closely spaced #spikes. These dynamics shape #NeuralProcessing, #filtering, and synaptic #homeostasis. Here's a short #Python implementation and simulation in #NESTSimulator:

    🌍 fabriziomusacchio.com/blog/202

    #CompNeuro #Neuroscience #NeuralDynamics #TsodyksMarkramModel

  3. Short-term #synaptic #plasticity (#STP) transiently modulates synaptic strength based on recent activity. #ShortTermDepression #STD reduces efficacy during repeated activity, while #ShortTermFacilitation #STF can enhance responses to closely spaced #spikes. These dynamics shape #NeuralProcessing, #filtering, and synaptic #homeostasis. Here's a short #Python implementation and simulation in #NESTSimulator:

    🌍 fabriziomusacchio.com/blog/202

    #CompNeuro #Neuroscience #NeuralDynamics #TsodyksMarkramModel

  4. Short-term #synaptic #plasticity (#STP) transiently modulates synaptic strength based on recent activity. #ShortTermDepression #STD reduces efficacy during repeated activity, while #ShortTermFacilitation #STF can enhance responses to closely spaced #spikes. These dynamics shape #NeuralProcessing, #filtering, and synaptic #homeostasis. Here's a short #Python implementation and simulation in #NESTSimulator:

    🌍 fabriziomusacchio.com/blog/202

    #CompNeuro #Neuroscience #NeuralDynamics #TsodyksMarkramModel

  5. Short-term #synaptic #plasticity (#STP) transiently modulates synaptic strength based on recent activity. #ShortTermDepression #STD reduces efficacy during repeated activity, while #ShortTermFacilitation #STF can enhance responses to closely spaced #spikes. These dynamics shape #NeuralProcessing, #filtering, and synaptic #homeostasis. Here's a short #Python implementation and simulation in #NESTSimulator:

    🌍 fabriziomusacchio.com/blog/202

    #CompNeuro #Neuroscience #NeuralDynamics #TsodyksMarkramModel

  6. In mouse #BarrelCortex, slow recurrent background fluctuations appear to compensate for the tiny dendrites of L4 spiny stellate #neurons, allowing even single #thalamocortical #spikes to be reliably represented at the population level with millisecond precision.

    🧵2/2

    📝 doi.org/10.1371/journal.pbio.3

    #Neuroscience #CompNeuro #NeuralCoding #PopulationCoding #Cortex

  7. In mouse #BarrelCortex, slow recurrent background fluctuations appear to compensate for the tiny dendrites of L4 spiny stellate #neurons, allowing even single #thalamocortical #spikes to be reliably represented at the population level with millisecond precision.

    🧵2/2

    📝 doi.org/10.1371/journal.pbio.3

    #Neuroscience #CompNeuro #NeuralCoding #PopulationCoding #Cortex

  8. In mouse #BarrelCortex, slow recurrent background fluctuations appear to compensate for the tiny dendrites of L4 spiny stellate #neurons, allowing even single #thalamocortical #spikes to be reliably represented at the population level with millisecond precision.

    🧵2/2

    📝 doi.org/10.1371/journal.pbio.3

    #Neuroscience #CompNeuro #NeuralCoding #PopulationCoding #Cortex

  9. In mouse #BarrelCortex, slow recurrent background fluctuations appear to compensate for the tiny dendrites of L4 spiny stellate #neurons, allowing even single #thalamocortical #spikes to be reliably represented at the population level with millisecond precision.

    🧵2/2

    📝 doi.org/10.1371/journal.pbio.3

    #Neuroscience #CompNeuro #NeuralCoding #PopulationCoding #Cortex

  10. In mouse #BarrelCortex, slow recurrent background fluctuations appear to compensate for the tiny dendrites of L4 spiny stellate #neurons, allowing even single #thalamocortical #spikes to be reliably represented at the population level with millisecond precision.

    🧵2/2

    📝 doi.org/10.1371/journal.pbio.3

    #Neuroscience #CompNeuro #NeuralCoding #PopulationCoding #Cortex