Abstract Background We present a software workflow capable of building large scale, highly detailed and realistic volumetric models of neocortical circuits from the morphological skeletons of their digitally reconstructed neurons. The limitations of the existing approaches for creating those models are explained, and then, a multi-stage pipeline is discussed to overcome those limitations. Starting from the neuronal morphologies, we create smooth piecewise watertight polygonal models that can be efficiently utilized to synthesize continuous and plausible volumetric models of the neurons with solid voxelization. The somata of the neurons are reconstructed on a physically-plausible basis relying on the physics engine in Blender. Results Our pi...
Author Summary For studying the neural basis of perception and behavior, it would be ideal to direct...
This talk provided a description of a semi-automated imaging and tracing pipeline which allows compl...
We present a data-driven computational model of the anatomy of non-barrel primary somatosensory cort...
The recent years have witnessed growing interest in the power of scientific visualization for simula...
Abstract Recent progress in large-volume microscopy, tissue-staining, as well as in image processing...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
Background: We present a visualization pipeline capable of accurate rendering of highly scattering f...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
SummaryWe present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex...
Soma location, dendrite morphology and synaptic innervation are key determinants of neuronal functio...
Author Summary For studying the neural basis of perception and behavior, it would be ideal to direct...
We present a data-driven computational model of the anatomy and physiology of non-barrel primary som...
The three-dimensional (3D) structure of neural circuits represents an essential constraint for infor...
Author Summary For studying the neural basis of perception and behavior, it would be ideal to direct...
This talk provided a description of a semi-automated imaging and tracing pipeline which allows compl...
We present a data-driven computational model of the anatomy of non-barrel primary somatosensory cort...
The recent years have witnessed growing interest in the power of scientific visualization for simula...
Abstract Recent progress in large-volume microscopy, tissue-staining, as well as in image processing...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
Background: We present a visualization pipeline capable of accurate rendering of highly scattering f...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
SummaryWe present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex...
Soma location, dendrite morphology and synaptic innervation are key determinants of neuronal functio...
Author Summary For studying the neural basis of perception and behavior, it would be ideal to direct...
We present a data-driven computational model of the anatomy and physiology of non-barrel primary som...
The three-dimensional (3D) structure of neural circuits represents an essential constraint for infor...
Author Summary For studying the neural basis of perception and behavior, it would be ideal to direct...
This talk provided a description of a semi-automated imaging and tracing pipeline which allows compl...
We present a data-driven computational model of the anatomy of non-barrel primary somatosensory cort...