<p>Left: Hierarchical ROIs in three different layers; Right: Network connections between ROIs within different layers.</p
Visualizations of the three aggregated networks: (a) public, (b) private, and (c) public-private par...
<p>ROIs included the Brodmann areas (BA) 17, 18, and 19 (divided into left and right). BA 17, 18 and...
<p>Upstream regulators are displayed in the top tier, while diseases, functions and phenotypes are d...
<p>Graphical representation of statistically significant ROIs and their overlapping. The direction o...
<p>Tree based visualization of the multilevel hierarchical organization prevalent in 2 real-life net...
<p>A common “root” or outlet denoted by the red dot at the bottom of each network: (A) Horton-Strahl...
<p>Left: Two types of nodes are included in the hierarchical network: the simple node in , and the c...
<p>(a) Lattice_Hetero: actors with discrepant income levels are linked in a lattice, where each node...
<p>The bottom layer shows the communication network, the middle layer represents the transportation ...
<p>The hierarchy-based visualization of (A) the GrassLand food web, (B) the electrical circuit bench...
<p>Hierarchy diagram showing the diagnoses considered in this study, with different levels of detail...
<p>A) Matrix and circle views for a single subject matrix constructed from correlations between BOLD...
<p>High Connectivity (HC) nodes or hubs: A & C. High Betweenness but Low Connectivity (HBLC) nodes o...
a. In-degree centralities for single-layer and multiplex industry networks. Each column corresponds ...
<p>The household in the center of network (B) has more incoming ties, more high quality ties (large ...
Visualizations of the three aggregated networks: (a) public, (b) private, and (c) public-private par...
<p>ROIs included the Brodmann areas (BA) 17, 18, and 19 (divided into left and right). BA 17, 18 and...
<p>Upstream regulators are displayed in the top tier, while diseases, functions and phenotypes are d...
<p>Graphical representation of statistically significant ROIs and their overlapping. The direction o...
<p>Tree based visualization of the multilevel hierarchical organization prevalent in 2 real-life net...
<p>A common “root” or outlet denoted by the red dot at the bottom of each network: (A) Horton-Strahl...
<p>Left: Two types of nodes are included in the hierarchical network: the simple node in , and the c...
<p>(a) Lattice_Hetero: actors with discrepant income levels are linked in a lattice, where each node...
<p>The bottom layer shows the communication network, the middle layer represents the transportation ...
<p>The hierarchy-based visualization of (A) the GrassLand food web, (B) the electrical circuit bench...
<p>Hierarchy diagram showing the diagnoses considered in this study, with different levels of detail...
<p>A) Matrix and circle views for a single subject matrix constructed from correlations between BOLD...
<p>High Connectivity (HC) nodes or hubs: A & C. High Betweenness but Low Connectivity (HBLC) nodes o...
a. In-degree centralities for single-layer and multiplex industry networks. Each column corresponds ...
<p>The household in the center of network (B) has more incoming ties, more high quality ties (large ...
Visualizations of the three aggregated networks: (a) public, (b) private, and (c) public-private par...
<p>ROIs included the Brodmann areas (BA) 17, 18, and 19 (divided into left and right). BA 17, 18 and...
<p>Upstream regulators are displayed in the top tier, while diseases, functions and phenotypes are d...
DOI
Add to ORKG