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I am looking for the best way to solve this variation on the shortest-path problem:

I have a directed graph with unweighted edges. I need to be able to find the shortest path between any two nodes, if such a path exists. What makes this problem different than a regular shortest path problem is this: If multiple paths exist with shortest length, I need to be able to choose the path with the highest "authority".

Each node has a numerical authority and the path with the highest authority is simply the one with the highest sum of node authorities.

In summary: I need the shortest path between a pair of nodes in a directed graph, but if there are multiple paths with the same, minimum length, I need to find the one with the highest path authority.

What is the best way to go about doing this? Is there some way to convert this into a weighted graph and then just use Dijkstra's algorithm? Is there some way to modify breadth-first search to give me the set of shortest paths, which I can then iterate through to find the highest authority path?

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Is this homework? – William Brendel Dec 22 '11 at 23:21
It is not. Should I make that more clear in the question? – Genre Dec 22 '11 at 23:36
up vote 5 down vote accepted

The edges are unweighted, so give eacn edge a weight of 1+auth(v,u). [auth is explained in the following line]

for each (v,u) set auth(v,u) = max{authority} - authority(v) (*) [this is true becuase if you use the edge leaving from v, you definetly visited it].

(*)max{authority} is the the highest authority in the graph.

normalize your "auth rank" so, Sigma(auth(v,u),for each (v,u) in E) < 1 [by dividing, so the authority of edges will still be proportional to the original]

now, run dijkstra on the graph with the new modified weights.

The shortest path found must be shortest, because the authority factor cannot overcome the distance factor, because it is to 'weak' [normalized to less then 1].
And it is the one with the highest authority [for vertices], since it is the one with the lowest auth [for edges], since it is minimal.

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I think this is exactly what I am looking for. If you don't mind my asking for a few clarifications: in auth(v,u), is v the source of an edge and u the destination? I feel like you are probably using standard graph notation, but unfortunately, I'm not totally familiar with it. In Sigma(auth(v,u),for each (v,u) in E) is E the edge set? And I understand the goal of normalizing, but I don't understand how you are suggesting that I should (if you suggested a method at all). – Genre Dec 22 '11 at 23:49
(1) yes, v is the sorce, and u is the destination. (2) yes, E is the edges set. (3) One method to normalize is to divide auth for all edges by max{authority} * (|E| + 1), this way you ensure there is no way the sum of auth for all edges is equal/greater then 1. – amit Dec 23 '11 at 0:14
One more question if you don't mind: Calculating authority is a computationally intensive task, but I know the theoretical maximum authority, which is just the number of nodes. Could I use that for max{authority} or must it be the actual maximum authority? – Genre Dec 23 '11 at 1:08
@Genre: (1) it is not too expansive, it can be done with a single path on the edges set, and the bottleneck will eventually not be there. (2) However, yes - giving the theoretical max{authority} should be enough – amit Dec 23 '11 at 8:25
Alright thanks. By the way, I meant that calculating the authority for a node is expensive, based on the way I have defined it. It isn't a static number. – Genre Dec 23 '11 at 23:37

Nothing about Djikstra's algorithm forces you to use a scalar to represent the path cost.

A simple modification would be to use a pair instead of a single value, e.g. (distance, authority) to represent the cost of a path. The ordering would be < distance, then > authority, i.e., lower distance takes higher priority, then higher authority takes priority.

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