<p><b>(A)</b> An example of 6 “neurons” (lines) going through 4 voxels. Each neuron has a unique DNA barcode (here color). <b>(B)</b> These voxels are broken apart. <b>(C)</b> A coincidence matrix, <b>X</b>, is constructed describing which neurons are in which voxels. Gray signifies that a neuron is in a particular voxel. <b>(D)</b> A similarity matrix is constructed describing how many neurons a pair of voxels has in common. This matrix can be calculated as <b>XX</b><sup><i>T</i></sup>. <b>(E)</b> The voxels are puzzled back together. The reconstruction may be rotated or flipped, as shown here.</p
Understanding of informational processes in the brain promises significant advances for communicatio...
(A) Renderings of 3D reconstructed TC neurons along with their persistence barcode. The persistence ...
<p><b>A</b>: The lines of small white circles denote an entire column of neurons of an NxN matrix. W...
<p><b>(A)</b> An example of 9 connected neurons (circles). Lines signify connections. <b>(B)</b> Aft...
<p><b>(A)</b> On the <b>left</b>, an example reconstruction of voxel locations using the SDM method....
stimuli is possible, and may be expressed as changes along the magnitude of response to the stimuli ...
<p><b>(A)</b> On the <b>left</b>, an example reconstruction of neural locations based on a simulatio...
Figure 1: Our tool visualizes overlaps of arborizations inside the brain of Drosophila melanogaster....
<p>Brain maps of the largest clusters formed by selected voxels that are common between Cases Within...
<p>A: A neurite originating from the upper cell travels downward into close proximity of the lower n...
A relatively new research field of neurosciences, called Connectomics, aims to achieve a full unders...
<p><b>A–E</b>. illustrating 5 E–E pairs. A, B pairs of spiny stellate neurons. C, D, E pairs of star...
<p>(A) The connectivity of the circuit obtained through sequencing can be read out by filling in the...
Abstract Reconstructing three-dimensional (3D) morphology of neurons is essential for understanding ...
Cellular barcoding methods offer the exciting possibility of 'infinite-pseudocolor' anatomical recon...
Understanding of informational processes in the brain promises significant advances for communicatio...
(A) Renderings of 3D reconstructed TC neurons along with their persistence barcode. The persistence ...
<p><b>A</b>: The lines of small white circles denote an entire column of neurons of an NxN matrix. W...
<p><b>(A)</b> An example of 9 connected neurons (circles). Lines signify connections. <b>(B)</b> Aft...
<p><b>(A)</b> On the <b>left</b>, an example reconstruction of voxel locations using the SDM method....
stimuli is possible, and may be expressed as changes along the magnitude of response to the stimuli ...
<p><b>(A)</b> On the <b>left</b>, an example reconstruction of neural locations based on a simulatio...
Figure 1: Our tool visualizes overlaps of arborizations inside the brain of Drosophila melanogaster....
<p>Brain maps of the largest clusters formed by selected voxels that are common between Cases Within...
<p>A: A neurite originating from the upper cell travels downward into close proximity of the lower n...
A relatively new research field of neurosciences, called Connectomics, aims to achieve a full unders...
<p><b>A–E</b>. illustrating 5 E–E pairs. A, B pairs of spiny stellate neurons. C, D, E pairs of star...
<p>(A) The connectivity of the circuit obtained through sequencing can be read out by filling in the...
Abstract Reconstructing three-dimensional (3D) morphology of neurons is essential for understanding ...
Cellular barcoding methods offer the exciting possibility of 'infinite-pseudocolor' anatomical recon...
Understanding of informational processes in the brain promises significant advances for communicatio...
(A) Renderings of 3D reconstructed TC neurons along with their persistence barcode. The persistence ...
<p><b>A</b>: The lines of small white circles denote an entire column of neurons of an NxN matrix. W...