<p>The largest bi-component is marked red, while the core researchers are denoted using bigger red squares. The later identify the core-periphery structure, as detected within the main component.</p
<p>(a) Graph layout of the whole network, with red nodes representing a chosen fraction of the most ...
<p>The largest connected component from the physical-interaction graph which was derived by pooling ...
The scale of the cluster represented the articles’ number of corresponding country and the size vari...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
<p>Orange nodes and shaded polygons denote the largest cohesive subgroups in the network.</p
Blue/ purple = supervisor(s); Green = coauthored between the two supervisors; Red = researcher co-au...
<p>Data points represent the fraction of researchers present in the largest component for a five yea...
<p>Each node is a community formed by researchers affiliated with Fiocruz. Two communities were cons...
Blue = supervisor; Red = researcher co-authored with supervisor; Yellow = researcher Numbers indicat...
<p>Node size represents the number of collaborators each network member has in the network (larger n...
<p>Nodes represent complexes and are ordered by number of unique components (shown as number next to...
<p>Individual researcher networks are based on co-author networks affiliated with Germany for (A) Le...
<p>Note: Most productive cluster of countries applying a threshold of 50 or more papers signed in co...
<p>(a) Graph layout of the whole network, with red nodes representing a chosen fraction of the most ...
<p>The largest connected component from the physical-interaction graph which was derived by pooling ...
The scale of the cluster represented the articles’ number of corresponding country and the size vari...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
Structural patterns in collaboration networks are essential for understanding how new ideas, researc...
<p>Orange nodes and shaded polygons denote the largest cohesive subgroups in the network.</p
Blue/ purple = supervisor(s); Green = coauthored between the two supervisors; Red = researcher co-au...
<p>Data points represent the fraction of researchers present in the largest component for a five yea...
<p>Each node is a community formed by researchers affiliated with Fiocruz. Two communities were cons...
Blue = supervisor; Red = researcher co-authored with supervisor; Yellow = researcher Numbers indicat...
<p>Node size represents the number of collaborators each network member has in the network (larger n...
<p>Nodes represent complexes and are ordered by number of unique components (shown as number next to...
<p>Individual researcher networks are based on co-author networks affiliated with Germany for (A) Le...
<p>Note: Most productive cluster of countries applying a threshold of 50 or more papers signed in co...
<p>(a) Graph layout of the whole network, with red nodes representing a chosen fraction of the most ...
<p>The largest connected component from the physical-interaction graph which was derived by pooling ...
The scale of the cluster represented the articles’ number of corresponding country and the size vari...
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