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.

```
library(igraph)
```

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)
plot(set.graph)
```

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)
plot(incomplete.graph)
```

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!

`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