Maximum branching: Difference between revisions

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'''Output:'''
'''Output:'''
A branching <math>B=(V,A')</math> of maximum weight such that <math>A'\subseteq A</math>. In that, the weight of a branching is the sum of the weights of all arcs in <math>A'</math>.
A branching <math>B=(V,A')</math> of maximum weight such that <math>A'\subseteq A</math>. In that, the weight of a branching is the sum of the weights of all arcs in <math>A'</math>.
== Known algorithms==
# Branching by Edmonds
== Remark ==
Without loss of generality, all arcs with nonpositive weights may be removed, so we may assume that all weights are strictly positive.

Revision as of 08:56, 11 October 2014

General information

Definition: A branching is a cycle-free directed graph such that each node has at most one incoming arc.

Input:

  1. A directed graph [math]\displaystyle{ G=(V,A) }[/math]:
  2. A real-valued weight [math]\displaystyle{ w(a) }[/math] for each arc [math]\displaystyle{ a\in A }[/math].

Output: A branching [math]\displaystyle{ B=(V,A') }[/math] of maximum weight such that [math]\displaystyle{ A'\subseteq A }[/math]. In that, the weight of a branching is the sum of the weights of all arcs in [math]\displaystyle{ A' }[/math].

Known algorithms

  1. Branching by Edmonds

Remark

Without loss of generality, all arcs with nonpositive weights may be removed, so we may assume that all weights are strictly positive.