Understanding how neurons cooperate to integrate sensory inputs and guide behavior is a fundamental problem in neuroscience. A large body of methods have been developed to study neuronal firing at the single cell and population levels, generally seeking interpretability as well as predictivity. However, these methods are usually confronted with the lack of ground-truth necessary to validate the approach. Here, using neuronal data from the head-direction (HD) system, we present evidence demonstrating how gradient boosted trees, a non-linear and supervised Machine Learning tool, can learn the relationship between behavioral parameters and neuronal responses with high accuracy by optimizing the information rate. Interestingly, and unlike other...
© 2014 Dr. Robert Roy KerrA fundamental goal of neuroscience is to understand how the brain encodes ...
<p><b>a</b>) The cortical network activity during transitions from awake state (pink block, <i>top</...
The question of how the collective activity of neural populations in the brain gives rise to complex...
<div><p>Understanding how neurons cooperate to integrate sensory inputs and guide behavior is a fund...
<p>Neuroscience has long focused on finding encoding models that effectively ask “what predicts neur...
<p><b>A</b> Cross-correlation between spike trains of ADn and PoSub neurons during the Wake, REM sle...
Brain circuits exhibit very complex dynamics, where individual neurons fire action potentials determ...
Cellular level learning is vital to almost all brain function, and extensive homeostatic plasticity ...
Thesis (Ph.D.)--University of Washington, 2015How does the activity of populations of neurons encode...
Thalamic neurons have been long assumed to fire in tonic mode during perceptive states, and in burst...
Neurological disorders such as Alzheimers and Parkinsons diseases are associated with malfunctioning...
Uncovering brain-behavior mechanisms is the ultimate goal of neuroscience. A formidable amount of di...
Propagating spike waves are a ubiquitous type of activity within the brain. However, both their form...
Brain information processing is shaped by fluctuations in population rhythmic activities, each defin...
SummaryTo signal the onset of salient sensory features or execute well-timed motor sequences, neuron...
© 2014 Dr. Robert Roy KerrA fundamental goal of neuroscience is to understand how the brain encodes ...
<p><b>a</b>) The cortical network activity during transitions from awake state (pink block, <i>top</...
The question of how the collective activity of neural populations in the brain gives rise to complex...
<div><p>Understanding how neurons cooperate to integrate sensory inputs and guide behavior is a fund...
<p>Neuroscience has long focused on finding encoding models that effectively ask “what predicts neur...
<p><b>A</b> Cross-correlation between spike trains of ADn and PoSub neurons during the Wake, REM sle...
Brain circuits exhibit very complex dynamics, where individual neurons fire action potentials determ...
Cellular level learning is vital to almost all brain function, and extensive homeostatic plasticity ...
Thesis (Ph.D.)--University of Washington, 2015How does the activity of populations of neurons encode...
Thalamic neurons have been long assumed to fire in tonic mode during perceptive states, and in burst...
Neurological disorders such as Alzheimers and Parkinsons diseases are associated with malfunctioning...
Uncovering brain-behavior mechanisms is the ultimate goal of neuroscience. A formidable amount of di...
Propagating spike waves are a ubiquitous type of activity within the brain. However, both their form...
Brain information processing is shaped by fluctuations in population rhythmic activities, each defin...
SummaryTo signal the onset of salient sensory features or execute well-timed motor sequences, neuron...
© 2014 Dr. Robert Roy KerrA fundamental goal of neuroscience is to understand how the brain encodes ...
<p><b>a</b>) The cortical network activity during transitions from awake state (pink block, <i>top</...
The question of how the collective activity of neural populations in the brain gives rise to complex...