Ahuja-Orlin: Difference between revisions
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(Created page with "== General Information == '''Algorithmic problem:''' Max-Flow Problems '''Type of algorithm:''' loop == Abstract View == '''Invariant:''' After <math>i \ge 0</math> it...") |
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'''Variant:''' | '''Variant:''' | ||
# If the | # If the number | ||
# Whenever that number does ''not'' decrease in an iteration, the size of <math>A_f</math> decreases. | # Whenever that number does ''not'' decrease in an iteration, the size of <math>A_f</math> decreases. | ||
'''Break condition:''' There is no flow-augumenting path. | '''Break condition:''' There is no flow-augumenting path. | ||
== Remark == | |||
This algorithm may be seen as a "lazy" variant on [[Edmonds-Karp]]. In fact, the most expensive step there is the computation of a flow-augmenting <math>(s,t)</math>-path. This task amounts to computing the true distance from every node to <math>t</math>. A valid distance labeling may be seen as "lazily evaluated" true distances. |
Revision as of 06:37, 13 October 2014
General Information
Algorithmic problem: Max-Flow Problems
Type of algorithm: loop
Abstract View
Invariant: After [math]\displaystyle{ i \ge 0 }[/math] iterations:
- The flow [math]\displaystyle{ f }[/math] is a fleasible flow.
- If all upper bounds are integral, [math]\displaystyle{ f }[/math] is integral as well.
- There is a valid distance labeling [math]\displaystyle{ d }[/math] with respect to [math]\displaystyle{ }[/math].
- Each node <,ath>v\in V\setminus\{t\}</math> has a 'current arc, which is either void or one of the outgoing arcs of [math]\displaystyle{ v }[/math].
- There is a current flow-augmenting path with respect to [math]\displaystyle{ f }[/math]. This path starts wit [math]\displaystyle{ s }[/math] and ends at an arbitrary node of [math]\displaystyle{ G }[/math]. Each arc on this path is the curren tarc of its tail.
Variant:
- If the number
- Whenever that number does not decrease in an iteration, the size of [math]\displaystyle{ A_f }[/math] decreases.
Break condition: There is no flow-augumenting path.
Remark
This algorithm may be seen as a "lazy" variant on Edmonds-Karp. In fact, the most expensive step there is the computation of a flow-augmenting [math]\displaystyle{ (s,t) }[/math]-path. This task amounts to computing the true distance from every node to [math]\displaystyle{ t }[/math]. A valid distance labeling may be seen as "lazily evaluated" true distances.