Negative cycle-canceling

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Abstract view

Algorithmic problem: Min-cost flow problem

Type of algorithm: loop

Invariant: The flow is feasible.

Variant: The cost of the flow decreases.

Definition: A cycle is negative if the sum of the cost values on all of its arcs is negative.

Break condition: There is no more negative cycle in the residual network.

Induction basis

Abstract view: Start with an arbitrary feasible flow, for example, the zero flow.

Induction step

Abstract view:

  1. Find a cycle of negative cost in the residual network.
  2. Augment the flow on all arcs of this cycle by the minmum residual capacity of all arcs on this cycle.

Implementation:

  1. Run an all-pairs shortest-paths algorithm on the residual network, where the length of an arc [math]\displaystyle{ (v,w)in A }[/math] is defined as the minimum of [math]\displaystyle{ c(v,w) }[/math] and [math]\displaystyle{ -c(w,v) }[/math]. The number of all
  2. If the distance [math]\displaystyle{ v\rightarrow v }[/math] is 0 for all [math]\displaystyle{ v\in V }[/math], the break condition applies.
  3. Otherwise (that is, the distances [math]\displaystyle{ v\rightarrow v }[/math] of some nodes [math]\displaystyle{ v\in V }[/math] are negative):
    1. Reconstruct one negative cycle [math]\displaystyle{ C }[/math] from the output of step 1.
    2. Augment the flow on all arcs of [math]\displaystyle{ C }[/math] (in the [Basic flow definitions#Residual network|residual network]]) by the minimum residual capacity of all arcs of [math]\displaystyle{ C }[/math].

'Proof: The invariant and the variant are obviously fulfilled.