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I am interested in deriving dominance metrics (as in a dominance hierarchy) for nodes in a dominance directed graph, aka a tournament graph. I can use R and the package igraph to easily construct such graphs, e.g.


create a data frame of edges

the.froms <- c(1,1,1,2,2,3)

the.tos <- c(2,3,4,3,4,4)

the.set <- data.frame(the.froms, the.tos)

set.graph <- graph.data.frame(the.set)


This plotted graph shows that node 1 influences nodes 2, 3, and 4 (is dominant to them), that 2 is dominant to 3 and 4, and that 3 is dominant to 4.

However, I see no easy way to actually calculate a dominance hierarchy as in the page: https://www.math.ucdavis.edu/~daddel/linear_algebra_appl/Applications/GraphTheory/GraphTheory_9_17/node11.html . So, my first and main question is does anyone know how to derive a dominance hierarchy/node-based dominance metric for a graph like this using some hopefully already coded solution in R?

Moreover, in my real case, I actually have a sparse matrix that is missing some interactions, e.g.

incomplete.set <- the.set[-2, ]

incomplete.graph <- graph.data.frame(incomplete.set)


In this plotted graph, there is no connection between species 1 and 3, however making some assumptions about transitivity, the dominance hierarchy is the same as above.

This is a much more complicated problem, but if anyone has any input about how I might go about deriving node-based metrics of dominance for sparse matrices like this, please let me know. I am hoping for an already coded solution in R, but I'm certainly MORE than willing to code it myself.

Thanks in advance!

share|improve this question
For non-graph theorists, it might be better to explain the dominance concept within your question. It's up to you though; someone else may know what you're talking about. Also, if your question is about the math and not the coding, SO might not be the right place for it. –  Frank Sep 23 '13 at 23:16
Thank you Frank. I modified it to be clearer, I hope. In short, my first question is definitely about programming, while the second is perhaps more about the math...though I was hoping to bypass the math for now and find a coded solution to fiddle with while I try and understand the math of the more complicated aspect of it. –  forlooper Sep 23 '13 at 23:33
Would the relations package be of any use? It seems to be able to deal with calculations for dominance of one node over another - cran.r-project.org/web/packages/relations/vignettes/… –  thelatemail Sep 23 '13 at 23:37
To be honest, I have no idea what exactly is your question. What would be the output for your example graph? You want to derive a metric, but what would this metric measure at all? Why is this is a stackoverflow question if you don't know what you want to calculate? –  Gabor Csardi Sep 24 '13 at 0:35
@GaborCsardi Thanks a lot for the response! I do know what I want to calculate. I want a number describing the rank in a dominance hierarchy of every node in a directed graph, like shown in the link I provided in the original post. Thus, in the example code I provided, node 1 would be 1, node 2 would be 2, node 3 would be 3 and node 4 would be 4. I would imagine in more complicated networks it is possible to have values of this metric that are ties, or ranges, or something like that, particularly if the network is not a directed acyclic graph or if it is a sparse matrix. –  forlooper Sep 24 '13 at 2:04

1 Answer 1

up vote 1 down vote accepted

Not sure if this is perfect or that I fully understand this, but it seems to work as it should from some trial and error:

result <- relation_consensus(endorelation(graph=the.set),method="Borda")
#1 2 3 4 
#1 2 3 4 

There are lots of potential options for method= for dealing with ties etc - see ?relation_consensus for more information. Using method="SD/L" which is a linear order might be the most appropriate for your data, though it can suggest multiple possible solutions due to conflicts in more complex examples. For the current simple data this is not the case though - try:

result <- relation_consensus(endorelation(graph=the.set),method="SD/L",
#An ensemble of 1 relation of size 4 x 4.

#1 2 3 4 
#1 2 3 4 

Methods of dealing with this are again provided in the examples in ?relation_consensus.

share|improve this answer
This works very well. In particular, the second option here seems to return the correct linear order even if the matrix is missing a value, as in the second example I provided. I appreciate it a lot, thanks @thelatemail. As an aside, in your code above you called an object "the.new". I'm not sure where this came from, though it doesn't affect this answer being right. Cheers –  forlooper Sep 24 '13 at 16:50
@forlooper - no worries, "the.new" error is fixed now too - that was just the name of my working dataset. –  thelatemail Sep 24 '13 at 21:30

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