A temporal digraph G is a triple (G, γ, λ) where G is a digraph, γ is a function on V (G) that tells us the time stamps when a vertex is active, and λ is a function on E(G) that tells for each (Formula Presented) when u and v are linked. Given a static digraph G, and a subset (Formula Presented), a spanning branching with root R is a subdigraph of G that has exactly one path from R to each (Formula Presented). In this paper, we consider the temporal version of Edmonds’ classical result about the problem of finding k edge-disjoint spanning branchings respectively rooted at given R1, · · ·, Rk . We introduce and investigate different definitions of spanning branchings, and of edge-disjointness in the context of temporal graphs. A branching B is vertex-spanning if the root is able to reach each vertex v of G at some time where v is active, while it is temporal-spanning if v can be reached from the root at every time where v is active. On the other hand, two branchings B1 and B2 are edge-disjoint if they do not use the same edge of G, and are temporal-edge-disjoint if they can use the same edge of G but at different times. This lead us to four definitions of disjoint spanning branchings and we prove that, unlike the static case, only one of these can be computed in polynomial time, namely the temporal-edge-disjoint temporal-spanning branchings problem, while the other versions are NP-complete, even under very strict assumptions.
Edge-Disjoint Branchings in Temporal Graphs / Campos V.; Lopes R.; Marino A.; Silva A.. - STAMPA. - 12126:(2020), pp. 112-125. (Intervento presentato al convegno 31st International Workshop on Combinatorial Algorithms, IWOCA 2020 tenutosi a fra nel 2020) [10.1007/978-3-030-48966-3_9].
Edge-Disjoint Branchings in Temporal Graphs
Marino A.;Silva A.
2020
Abstract
A temporal digraph G is a triple (G, γ, λ) where G is a digraph, γ is a function on V (G) that tells us the time stamps when a vertex is active, and λ is a function on E(G) that tells for each (Formula Presented) when u and v are linked. Given a static digraph G, and a subset (Formula Presented), a spanning branching with root R is a subdigraph of G that has exactly one path from R to each (Formula Presented). In this paper, we consider the temporal version of Edmonds’ classical result about the problem of finding k edge-disjoint spanning branchings respectively rooted at given R1, · · ·, Rk . We introduce and investigate different definitions of spanning branchings, and of edge-disjointness in the context of temporal graphs. A branching B is vertex-spanning if the root is able to reach each vertex v of G at some time where v is active, while it is temporal-spanning if v can be reached from the root at every time where v is active. On the other hand, two branchings B1 and B2 are edge-disjoint if they do not use the same edge of G, and are temporal-edge-disjoint if they can use the same edge of G but at different times. This lead us to four definitions of disjoint spanning branchings and we prove that, unlike the static case, only one of these can be computed in polynomial time, namely the temporal-edge-disjoint temporal-spanning branchings problem, while the other versions are NP-complete, even under very strict assumptions.
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