Digraph Realization Problem: Difference between revisions

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== Time Complexity graph ==  
== Time Complexity Graph ==  


[[File:Graph Realization Problems - Digraph Realization Problem - Time.png|1000px]]
[[File:Graph Realization Problems - Digraph Realization Problem - Time.png|1000px]]


== Space Complexity graph ==  
== Space Complexity Graph ==  


[[File:Graph Realization Problems - Digraph Realization Problem - Space.png|1000px]]
[[File:Graph Realization Problems - Digraph Realization Problem - Space.png|1000px]]


== Pareto Decades graph ==  
== Pareto Frontier Improvements Graph ==  


[[File:Graph Realization Problems - Digraph Realization Problem - Pareto Frontier.png|1000px]]
[[File:Graph Realization Problems - Digraph Realization Problem - Pareto Frontier.png|1000px]]

Revision as of 13:04, 15 February 2023

Description

Given a sequence $S := (a_1, b_1), \ldots, (a_n, b_n)$ with $a_i, b_i \in \mathbb{Z}_0^+$, does there exist a directed graph (no parallel arcs allowed) with labeled vertex set $V := \{v_1, \ldots , v_n\}$ such that for all $v_i \in V$ indegree and outdegree of $v_i$ match exactly the given numbers $a_i$ and $b_i$, respectively?

Related Problems

Subproblem: DAG Realization Problem

Parameters

$n$: number of degree pairs

Table of Algorithms

Name Year Time Space Approximation Factor Model Reference
Kleitman–Wang Algorithm 1973 $O(n)$ $O(n)$ Exact Deterministic Time
Fulkerson–Chen–Anstee 1982 $O(n)$ $O({1})$ Exact Deterministic Time

Time Complexity Graph

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Space Complexity Graph

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Pareto Frontier Improvements Graph

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References/Citation

https://linkinghub-elsevier-com.ezproxy.canberra.edu.au/retrieve/pii/0012365X7390037X