International audienceMaximum entropy models can be inferred from large datasets to uncover how collective dynamics emerge from local interactions. Here, such models are employed to investigate neurons recorded by multi-electrode arrays in the human and monkey cortex. Taking advantage of the separation of excitatory and inhibitory neuron types, we construct a model including this distinction. This approach allows us to shed light on differences between excitatory and inhibitory activity across different brain states such as wakefulness and deep sleep, in agreement with previous findings. Additionally, maximum entropy models can also unveil novel features of neuronal interactions, which are found to be dominated by pairwise interactions duri...
Finding models for capturing the statistical structure of multi-neuron firing patterns is a major ch...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
The pairwise maximum entropy model, also known as the Ising model, has been widely used to analyze t...
International audienceDuring wakefulness and deep sleep brain states, cortical neural networks show ...
The study of states of arousal is key to understand the principles of consciousness. Yet, how differ...
Understanding the structure of multi-neuronal firing patterns has been a central quest and major cha...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
Thesis (Ph.D.)--University of Washington, 2015How does the activity of populations of neurons encode...
Understanding the operations of neural networks in the brain requires an understanding of whether in...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
International audienceBalance of excitation and inhibition is a fundamental feature of in vivo netwo...
Maximum entropy models are the least structured probability distributions that exactly reproduce a c...
Finding models for capturing the statistical structure of multi-neuron firing patterns is a major ch...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
The pairwise maximum entropy model, also known as the Ising model, has been widely used to analyze t...
International audienceDuring wakefulness and deep sleep brain states, cortical neural networks show ...
The study of states of arousal is key to understand the principles of consciousness. Yet, how differ...
Understanding the structure of multi-neuronal firing patterns has been a central quest and major cha...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
Thesis (Ph.D.)--University of Washington, 2015How does the activity of populations of neurons encode...
Understanding the operations of neural networks in the brain requires an understanding of whether in...
Pairwise maximum-entropy models have been used in neuroscience to predict the activity of neuronal p...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
International audienceBalance of excitation and inhibition is a fundamental feature of in vivo netwo...
Maximum entropy models are the least structured probability distributions that exactly reproduce a c...
Finding models for capturing the statistical structure of multi-neuron firing patterns is a major ch...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...
Understanding how the brain processes information is a major goal in neuroscience. A crucial step to...