Add to ORKGModern recording methods and spike-sorting algorithms now allow the simultaneous recording of many neurons ’ responses and their classification into single-neuron spike trains. The interrelationships among the individual responses determine the joint population code. Thus, we measure the entire population’s response instead of simply inferring population behavior from singleneuro
Deciphering how neurons represent the external world is a fundamental goal in neuroscience. This req...
All brain functions require the coordinated activity of many neurons, and therefore there is conside...
In many cases, great knowledge regarding single neuron activity during the encoding of sensory signa...
With the increasing availability of multi-unit recordings the fo-cus of attention is shifting from b...
Temporally, precise correlations between simultaneously recorded neurons have been interpreted as si...
Background: Spike trains of multiple neurons can be analyzed following the summed population (SP) or...
Modern recording techniques such as multi-electrode arrays and two-photon imaging methods are capabl...
Analyzing the spike response of a neural population will be plagued by a lack of data unless some kn...
In this thesis we present a new solution for an automatic classification of the single-neuron activi...
<p>Pseudo-population responses of neurons were generated based on the response distribution of each...
Population coding is the quantitative study of which algorithms or representations are used by the b...
A fundamental problem in studying population codes is how to compare population activity patterns. P...
As multi-electrode and imaging technology begin to provide us with simultaneous recordings of large ...
A central goal of systems neuroscience is to relate an organism's neural activity to behavior. Neura...
We examine the problem of estimating the spike trains of multiple neurons from voltage traces record...
Deciphering how neurons represent the external world is a fundamental goal in neuroscience. This req...
All brain functions require the coordinated activity of many neurons, and therefore there is conside...
In many cases, great knowledge regarding single neuron activity during the encoding of sensory signa...
With the increasing availability of multi-unit recordings the fo-cus of attention is shifting from b...
Temporally, precise correlations between simultaneously recorded neurons have been interpreted as si...
Background: Spike trains of multiple neurons can be analyzed following the summed population (SP) or...
Modern recording techniques such as multi-electrode arrays and two-photon imaging methods are capabl...
Analyzing the spike response of a neural population will be plagued by a lack of data unless some kn...
In this thesis we present a new solution for an automatic classification of the single-neuron activi...
<p>Pseudo-population responses of neurons were generated based on the response distribution of each...
Population coding is the quantitative study of which algorithms or representations are used by the b...
A fundamental problem in studying population codes is how to compare population activity patterns. P...
As multi-electrode and imaging technology begin to provide us with simultaneous recordings of large ...
A central goal of systems neuroscience is to relate an organism's neural activity to behavior. Neura...
We examine the problem of estimating the spike trains of multiple neurons from voltage traces record...
Deciphering how neurons represent the external world is a fundamental goal in neuroscience. This req...
All brain functions require the coordinated activity of many neurons, and therefore there is conside...
In many cases, great knowledge regarding single neuron activity during the encoding of sensory signa...