SummaryNeural circuits display complex activity patterns both spontaneously and when responding to a stimulus or generating a motor output. How are these two forms of activity related? We develop a procedure called FORCE learning for modifying synaptic strengths either external to or within a model neural network to change chaotic spontaneous activity into a wide variety of desired activity patterns. FORCE learning works even though the networks we train are spontaneously chaotic and we leave feedback loops intact and unclamped during learning. Using this approach, we construct networks that produce a wide variety of complex output patterns, input-output transformations that require memory, multiple outputs that can be switched by control i...
Learning is a process that helps create neural dynamical systems so that an appropriate output patte...
Given the complex structure of the brain, how can synaptic plasticity explain the learning and forge...
At a first glance, artificial neural networks, with engineered learning algorithms and carefully cho...
SummaryNeural circuits display complex activity patterns both spontaneously and when responding to a...
In this issue of Neuron, Sussillo and Abbott describe a new learning rule that helps harness the com...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
Training recurrent neural networks (RNNs) is a long-standing open problem both in theoretical neuros...
Learning is a process that helps create neural dynamical systems so that an appropriate output patte...
AbstractIt is proposed that chaotic attractors incorporated in neural net models can represent class...
SummaryPopulations of neurons in motor cortex engage in complex transient dynamics of large amplitud...
<div><p>Recent experimental measurements have demonstrated that spontaneous neural activity in the a...
Populations of neurons in motor cortex engage in complex transient dynamics of large amplitude durin...
Populations of neurons display an extraordinary diversity in the behaviors they affect and display. ...
The brain's ability to tell time and produce complex spatiotemporal motor patterns is critical for a...
We study a family of discrete-time recurrent neural network models in which the synaptic connectivit...
Learning is a process that helps create neural dynamical systems so that an appropriate output patte...
Given the complex structure of the brain, how can synaptic plasticity explain the learning and forge...
At a first glance, artificial neural networks, with engineered learning algorithms and carefully cho...
SummaryNeural circuits display complex activity patterns both spontaneously and when responding to a...
In this issue of Neuron, Sussillo and Abbott describe a new learning rule that helps harness the com...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
Training recurrent neural networks (RNNs) is a long-standing open problem both in theoretical neuros...
Learning is a process that helps create neural dynamical systems so that an appropriate output patte...
AbstractIt is proposed that chaotic attractors incorporated in neural net models can represent class...
SummaryPopulations of neurons in motor cortex engage in complex transient dynamics of large amplitud...
<div><p>Recent experimental measurements have demonstrated that spontaneous neural activity in the a...
Populations of neurons in motor cortex engage in complex transient dynamics of large amplitude durin...
Populations of neurons display an extraordinary diversity in the behaviors they affect and display. ...
The brain's ability to tell time and produce complex spatiotemporal motor patterns is critical for a...
We study a family of discrete-time recurrent neural network models in which the synaptic connectivit...
Learning is a process that helps create neural dynamical systems so that an appropriate output patte...
Given the complex structure of the brain, how can synaptic plasticity explain the learning and forge...
At a first glance, artificial neural networks, with engineered learning algorithms and carefully cho...