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Partial Centrality

This vignette describes some methods to analyse partial rankings as obtained from neighborhood-inclusion or, more general, positional dominance. More on the topic of partial rankings can be found in the following literature.

Schoch, David. (2018). Centrality without Indices: Partial rankings and rank Probabilities in networks. Social Networks, 54, 50-60.(link)

Patil, G.P. & Taillie, C. (2004). Multiple Indicators, partially ordered sets, and linear extensions: Multi-criterion ranking and prioritization. Environmental and Ecological Statistics, 11, 199-228 (link)


Rank intervals

library(netrankr)
library(igraph)
library(magrittr)

The function rank_intervals() is used to calculate the maximal and minimal possible rank for each node in any ranking that is in accordance with a given partial ranking.

data("dbces11")
g <- dbces11

#neighborhood inclusion 
P <- g %>% neighborhood_inclusion(sparse = FALSE)

#without %>% operator:
# P <- neighborhood_inclusion(g, sparse = FALSE)

rank_intervals(P)
##  node:A rank interval: [1, 6]
##  node:B rank interval: [1, 9]
##  node:C rank interval: [2, 9]
##  node:D rank interval: [2, 11]
##  node:E rank interval: [3, 11]
##  node:F rank interval: [2, 11]
##  node:G rank interval: [2, 11]
##  node:H rank interval: [2, 11]
##  node:I rank interval: [1, 11]
##  node:J rank interval: [1, 11]
##  node:K rank interval: [3, 11]

The package uses the convention, that higher numerical ranks correspond to top ranked position. The lowest possible rank is thus 1. The column mid_point should not be confused with the expected rank of nodes, which is calculated with the function exact_rank_prob(). See this vignette for more details.

Rank intervals are useful to assess the ambiguity of ranking nodes. The bigger the intervals are, the more freedom exists, e.g. for centrality indices, to rank nodes differently.

The intervals can be visualized with its own plot() function. The function can take a data frame of centrality scores as an additional parameter cent_scores. The ranks of each node for each index are then plotted within each interval. Again, the higher the numerical rank the higher ranked the node is according to the index.

cent_scores <- data.frame(
   degree=degree(g),
   betweenness=round(betweenness(g),4),
   closeness=round(closeness(g),4),
   eigenvector=round(eigen_centrality(g)$vector,4))

rk_int <- rank_intervals(P)
plot(rk_int,cent_scores = cent_scores)

A small jitter effect is added to the points to reduce over-plotting.

Note that you may encounter situations, where ranks of centralities may fall outside of interval. This can happen in cases of ties in rankings, especially for betweenness centrality. Betweenness is, so far, the only index that does not strictly preserve neighborhood-inclusion. That is, while \[ N(u)\subseteq N[v] \text{ and } N(v)\not\subseteq N[u] \implies c(u)<c(v) \] holds for most indices, betweenness fails to fulfill this property.

The intervals reduce to single points for threshold graphs, since all nodes are pairwise comparable by neighborhood-inclusion.

set.seed(123)
tg <- threshold_graph(20,0.2)

#neighborhood inclusion 
P <- tg %>% neighborhood_inclusion(sparse = FALSE)

#without %>% operator:
# P <- neighborhood_inclusion(tg,sparse = FALSE)
plot(rank_intervals(P))

The described betweenness inconsistancy is most evident for threshold graphs as shown in the rank intervals below.

cent_scores <- data.frame(
   degree=degree(tg),
   betweenness=round(betweenness(tg),4),
   closeness=round(closeness(tg),4),
   eigenvector=round(eigen_centrality(tg)$vector,4))


plot(rank_intervals(P),cent_scores = cent_scores)

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They may not be fully stable and should be used with caution. We make no claims about them.