Neurons are spatially extended structures that receive and process inputs on their dendrites. It is generally accepted that neuronal computations arise from the active integration of synaptic inputs along a dendrite between the input location and the location of spike generation in the axon initial segment. However, many application such as simulations of brain networks use point-neurons-neurons without a morphological component-as computational units to keep the conceptual complexity and computational costs low. Inevitably, these applications thus omit a fundamental property of neuronal computation. In this work, we present an approach to model an artificial synapse that mimics dendritic processing without the need to explicitly simulate d...
Faithful reconstructions of cortical microcircuits allow the characterization of cortical synaptic p...
Dendrites form the major components of neurons. They are complex branching structures that receive a...
Computational modeling has been indispensable for understanding how subcellular neuronal features in...
Neurons are spatially extended structures that receive and process inputs on their dendrites. It is ...
Neuronal networks connected by electrical synapses, also referred to as gap junctions, are present t...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Neurons are characterised by a morphological structure unique amongst biological cells, the core of ...
Neurons are biological cells with uniquely complex dendritic morphologies that are not present in ot...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
AbstractNeurons receive synaptic inputs primarily onto their dendrites, which filter synaptic potent...
AbstractWhat types of computations are performed on synaptic inputs within the dendritic trees of si...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
A major challenge in neuroscience is to reverse engineer the brain and understand its information pr...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
Faithful reconstructions of cortical microcircuits allow the characterization of cortical synaptic p...
Dendrites form the major components of neurons. They are complex branching structures that receive a...
Computational modeling has been indispensable for understanding how subcellular neuronal features in...
Neurons are spatially extended structures that receive and process inputs on their dendrites. It is ...
Neuronal networks connected by electrical synapses, also referred to as gap junctions, are present t...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Neurons are characterised by a morphological structure unique amongst biological cells, the core of ...
Neurons are biological cells with uniquely complex dendritic morphologies that are not present in ot...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
AbstractNeurons receive synaptic inputs primarily onto their dendrites, which filter synaptic potent...
AbstractWhat types of computations are performed on synaptic inputs within the dendritic trees of si...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
A major challenge in neuroscience is to reverse engineer the brain and understand its information pr...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
Faithful reconstructions of cortical microcircuits allow the characterization of cortical synaptic p...
Dendrites form the major components of neurons. They are complex branching structures that receive a...
Computational modeling has been indispensable for understanding how subcellular neuronal features in...