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Suppose I have the following data frames

df <- data.frame(dev = c("A","A","B","B","C","C","C"),
                  proj = c("W","X","Y","X","W","X","Z"))
types <- data.frame(proj = c("W","X","Y","Z"), 
                    type = c("blue","orange","orange","blue"))
> df
  dev proj
1   A    W
2   A    X
3   B    Y
4   B    X
5   C    W
6   C    X
7   C    Z
> types
  proj   type
1    W   blue
2    X orange
3    Y orange
4    Z   blue

I would like to turn these into the following network

Graph

The nodes are the unique entries in proj. For nodes u,v, there is an arc from u to v if u and v share an element from dev. The data is a list of developers and projects that each developer has worked on, and I would like to form a network which connects projects that have a developer in common. Each project is of a particular type, and that information would need to be encoded in the graph (I did this in this toy example via colour).

From this graph what I need is the degree of each node, as well as one or more measures of centrality. In particular I need the closeness centrality of each node, as well as a modified version of closeness centrality which measures the centrality within each type. So my end goal is to obtain a table like this:

proj degree closeness_centrality type_centrality
   W      2                 0.75               1
   X      3                    1               1
   Y      2                 0.75               1
   Z      1                 0.60               1

For reference, the closeness centrality of a node u is defined as C(u)=(N-1)/(sum over all nodes v of the distance from u to v), where N is the number of nodes in the graph and the distance from u to v is the length of the shortest u-v-path. The type centrality is C(T,u)=|T-u|/(sum over all nodes v in T of the distance from u to v) where T is the set of all nodes of a given type, and |T-u| is the size of T with u excluded (so either |T| or |T|-1 depending on the type of u).

One of the big challenges is that my actual df has almost 300,000 rows and this graph will have around 155,000 vertices. The average degree will be very low though so I think that it is doable.

My questions are:

  1. Is R the best tool to be using for this? Are there good packages for performing these types of calculations on graphs?
  2. What is the best way to store this kind of data? Should I form an adjacency matrix, or something else?

Any insight or tips at all would be well appreciated; as an economics major I'm kind of in over my head comp-sci-wise here.

Thanks!

share|improve this question
1  
Take a look at the igraph package. – Scott Ritchie Oct 27 '13 at 6:53
    
The bipartite projection may help with the first part. If this is still any help – user2627717 May 16 '14 at 19:02

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