Finding Best Swap Edges Minimizing the Routing Cost of a Spanning Tree
Given an n -node, undirected and 2-edge-connected graph G =( V , E ) with positive real weights on its m edges, given a set of k source nodes S ⊆ V , and given a spanning tree T of G , the routing cost from S of T is the sum of the distances in T from every source s ∈ S to all the other nodes of G ....
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| Published in: | Algorithmica Vol. 68; no. 2; pp. 337 - 357 |
|---|---|
| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
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01.02.2014
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| ISSN: | 0178-4617, 1432-0541 |
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| Abstract | Given an
n
-node, undirected and 2-edge-connected graph
G
=(
V
,
E
) with positive real weights on its
m
edges, given a set of
k
source
nodes
S
⊆
V
, and given a spanning tree
T
of
G
, the
routing cost from
S
of
T
is the sum of the distances in
T
from every source
s
∈
S
to all the other nodes of
G
. If an edge
e
of
T
undergoes a
transient
failure, and one needs to promptly reestablish the connectivity, then to reduce set-up and rerouting costs it makes sense to temporarily replace
e
by means of a
swap edge
, i.e., an edge in
G
reconnecting the two subtrees of
T
induced by the removal of
e
. Then, a
best swap edge
for
e
is a swap edge which minimizes the routing cost from
S
of the tree obtained after the swapping. As a natural extension, the
all-best swap edges
problem is that of finding a best swap edge for
every
edge of
T
, and this has been recently solved in
O
(
mn
) time and linear space. In this paper, we focus our attention on the relevant cases in which
k
=
O
(1) and
k
=
n
, which model realistic communication paradigms. For these cases, we improve the above result by presenting an
time and linear space algorithm. Moreover, for the case
k
=
n
, we also provide an accurate analysis showing that the obtained swap tree is effective in terms of routing cost. Indeed, if the input tree
T
has a routing cost from
V
which is a constant-factor away from that of a
minimum routing-cost spanning tree
(whose computation is a problem known to be in APX), and if in addition nodes in
T
enjoys a suitable distance stretching property from a tree centroid (which can be constructively induced, as we show), then the tree obtained after the swapping has a routing cost from
V
which is still a constant-ratio approximation of that of a new (i.e., in the graph deprived of the failed edge) minimum routing-cost spanning tree. |
|---|---|
| AbstractList | Given an
n
-node, undirected and 2-edge-connected graph
G
=(
V
,
E
) with positive real weights on its
m
edges, given a set of
k
source
nodes
S
⊆
V
, and given a spanning tree
T
of
G
, the
routing cost from
S
of
T
is the sum of the distances in
T
from every source
s
∈
S
to all the other nodes of
G
. If an edge
e
of
T
undergoes a
transient
failure, and one needs to promptly reestablish the connectivity, then to reduce set-up and rerouting costs it makes sense to temporarily replace
e
by means of a
swap edge
, i.e., an edge in
G
reconnecting the two subtrees of
T
induced by the removal of
e
. Then, a
best swap edge
for
e
is a swap edge which minimizes the routing cost from
S
of the tree obtained after the swapping. As a natural extension, the
all-best swap edges
problem is that of finding a best swap edge for
every
edge of
T
, and this has been recently solved in
O
(
mn
) time and linear space. In this paper, we focus our attention on the relevant cases in which
k
=
O
(1) and
k
=
n
, which model realistic communication paradigms. For these cases, we improve the above result by presenting an
time and linear space algorithm. Moreover, for the case
k
=
n
, we also provide an accurate analysis showing that the obtained swap tree is effective in terms of routing cost. Indeed, if the input tree
T
has a routing cost from
V
which is a constant-factor away from that of a
minimum routing-cost spanning tree
(whose computation is a problem known to be in APX), and if in addition nodes in
T
enjoys a suitable distance stretching property from a tree centroid (which can be constructively induced, as we show), then the tree obtained after the swapping has a routing cost from
V
which is still a constant-ratio approximation of that of a new (i.e., in the graph deprived of the failed edge) minimum routing-cost spanning tree. |
| Author | Gualà, Luciano Bilò, Davide Proietti, Guido |
| Author_xml | – sequence: 1 givenname: Davide surname: Bilò fullname: Bilò, Davide organization: Dipartimento di Informatica, Università di L’Aquila – sequence: 2 givenname: Luciano surname: Gualà fullname: Gualà, Luciano organization: Dipartimento di Matematica, Università di Tor Vergata – sequence: 3 givenname: Guido surname: Proietti fullname: Proietti, Guido email: guido.proietti@univaq.it organization: Dipartimento di Informatica, Università di L’Aquila, Istituto di Analisi dei Sistemi ed Informatica, CNR |
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| Issue | 2 |
| Keywords | All-best swap edges problems Transient edge failures Graph algorithms Minimum routing-cost spanning tree Transient response Edge(graph) Connected graph Routing Linear time Replacement Graph theory Modeling Fault tolerance Graph connectivity Spanning tree Center of mass Subgraph |
| Language | English |
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n
-node, undirected and 2-edge-connected graph
G
=(
V
,
E
) with positive real weights on its
m
edges, given a set of
k
source
nodes
S
⊆
V
, and given... |
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| Title | Finding Best Swap Edges Minimizing the Routing Cost of a Spanning Tree |
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