The neocortex, and with it the mammalian brain, achieves a level of computational efficiency like no other existing computational engine. A deeper understanding of its building blocks (cortical microcircuits), and their underlying computational principles is thus of paramount interest. To this end, we need reproducible computational models that can be analyzed, modified, extended and quantitatively compared. In this study, we further that aim by providing a replication of a seminal cortical column model. This model consists of noisy Hodgkin-Huxley neurons connected by dynamic synapses, whose connectivity scheme is based on empirical findings from intracellular recordings. Our analysis confirms the key original finding that the specific, dat...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...
Recently, Markram et al. (2015) presented a model of the rat somatosensory microcircuit (Markram mod...
A major challenge for computational neuroscience is to understand the computational function of lami...
The neocortex is a continuous sheet composed of rather stereotypical local microcircuits that consis...
Based on extensive experimental work two templates for the laminae-specific connectivity pattern of ...
Cortical columnar architecture was discovered decades ago yet there is no agreed upon explanation fo...
<div><p>The mammalian neocortex has a repetitious, laminar structure and performs functions integral...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Cortical columnar architecture was discovered decades ago yet there is no agreed upon ex-planation f...
Complexity and heterogeneity are intrinsic to neurobiological systems, manifest in every process, at...
The neocortical system, with its exquisite variety of function, is built on a series of column-like ...
The mammalian neocortex generally has a repetitious, laminar structure and performs functions integr...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...
Recently, Markram et al. (2015) presented a model of the rat somatosensory microcircuit (Markram mod...
A major challenge for computational neuroscience is to understand the computational function of lami...
The neocortex is a continuous sheet composed of rather stereotypical local microcircuits that consis...
Based on extensive experimental work two templates for the laminae-specific connectivity pattern of ...
Cortical columnar architecture was discovered decades ago yet there is no agreed upon explanation fo...
<div><p>The mammalian neocortex has a repetitious, laminar structure and performs functions integral...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Computational studies addressing the dynamics and computational properties of biologically inspired ...
Cortical columnar architecture was discovered decades ago yet there is no agreed upon ex-planation f...
Complexity and heterogeneity are intrinsic to neurobiological systems, manifest in every process, at...
The neocortical system, with its exquisite variety of function, is built on a series of column-like ...
The mammalian neocortex generally has a repetitious, laminar structure and performs functions integr...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...
Recently, Markram et al. (2015) presented a model of the rat somatosensory microcircuit (Markram mod...