networkx - meaning of weight in betwenness and current flow betweenness

I'm using Python Networkx 2.1 to calculate Betweenness Centrality and Current Flow Betweenness Centrality on an undirected graph, with weighted edges. My concern is about the meaning of the parameter 'weight' in the networkx functions. Please consider the graph given by the following example

``````G= nx.Graph()
G[1][2]['weight'] = 20
G[1][3]['weight'] = 1
G[2][4]['weight'] = 1
G[3][4]['weight'] = 1

for u,v,d in G.edges(data=True):
if 'weight' in d:
if d['weight'] != 0:
d['reciprocal'] = 1/d['weight']
``````

Edges weight in my case is strength of relationship, therefore something positive. The idea is that edges with higher weights should contribute more to betweenness. Given this idea, am I correct in saying that the right formulas to calculate node Weighted Betweenness Centrality and Weighted Current Flow Betweenness Centrality are the following?

``````b = nx.betweenness_centrality(G, weight= 'reciprocal', normalized=False)
Out[46]: {1: 1.0, 2: 1.0, 3: 0.0, 4: 0.0}

f = nx.current_flow_betweenness_centrality(G, normalized= False, weight= 'weight', solver='lu')
Out[48]:
{1: 1.3114754098360655,
2: 1.3114754098360657,
3: 0.6885245901639343,
4: 0.6885245901639347}
``````

Please note that in the first formula I used the reciprocal of edge weights as it is my feeling that these are interpreted by the algorithm as distances, so something 'bad'. In the second formula, on the other hand, I used the original weight, as in the algorithm of current flow betweenness it seems this gives more importance to nodes 1 and 2, as in betweenness. Therefore here weights seems to be 'positive'.

I'm wondering if I do something wrong. In fact, on larger graphs the two measures correlate more if I use the same weight parameter, and not the reciprocal. How is weight treated in these two algorithms?

• It seems that your question got cut off. In any case, have you tried reading the Wikipedia article on betweenness centrality? What’s the output when you use `betweenness_centrality` on your graph? May 27, 2018 at 21:13