Low-diameter topic-based pub/sub overlay network construction with minimum–maximum node degree
Low-diameter topic-based pub/sub overlay network construction with minimum–maximum node degree
In the construction of effective and scalable overlay networks, publish/subscribe (pub/sub) network designers prefer to keep the diameter and maximum node degree of the network low. However, existing algorithms are not capable of simultaneously decreasing the maximum node degree and the network diameter. To address this issue in an overlay network with various topics, we present herein a heuristic algorithm, called the constant-diameter minimum–maximum degree (CD-MAX), which decreases the maximum node degree and maintains the diameter of the overlay network at two as the highest. The proposed algorithm based on the greedy merge algorithm selects the node with the minimum number of neighbors. The output of the CD-MAX algorithm is enhanced by applying a refinement stage through the CD-MAX-Ref algorithm, which further improves the maximum node degrees. The numerical results of the algorithm simulation indicate that the CD-MAX and CD-MAX-Ref algorithms improve the maximum node-degree by up to 64% and run up to four times faster than similar algorithms.
Yumusak, S.
5a45f53d-7a3c-4e3d-93b1-bc83f7096f37
Layazali, S.
331b38b5-e30b-49a9-bec7-e8b86b088a0e
Oztoprak, K.
787fc90b-50e6-44b8-a64d-8c388c72e678
Hassanpour, R.
a69ec5e0-b5c9-449e-a810-8cb519421335
Yumusak, S.
5a45f53d-7a3c-4e3d-93b1-bc83f7096f37
Layazali, S.
331b38b5-e30b-49a9-bec7-e8b86b088a0e
Oztoprak, K.
787fc90b-50e6-44b8-a64d-8c388c72e678
Hassanpour, R.
a69ec5e0-b5c9-449e-a810-8cb519421335
Yumusak, S., Layazali, S., Oztoprak, K. and Hassanpour, R.
(2021)
Low-diameter topic-based pub/sub overlay network construction with minimum–maximum node degree.
PeerJ Computer Science, 7, [e538].
(doi:10.7717/PEERJ-CS.538).
Abstract
In the construction of effective and scalable overlay networks, publish/subscribe (pub/sub) network designers prefer to keep the diameter and maximum node degree of the network low. However, existing algorithms are not capable of simultaneously decreasing the maximum node degree and the network diameter. To address this issue in an overlay network with various topics, we present herein a heuristic algorithm, called the constant-diameter minimum–maximum degree (CD-MAX), which decreases the maximum node degree and maintains the diameter of the overlay network at two as the highest. The proposed algorithm based on the greedy merge algorithm selects the node with the minimum number of neighbors. The output of the CD-MAX algorithm is enhanced by applying a refinement stage through the CD-MAX-Ref algorithm, which further improves the maximum node degrees. The numerical results of the algorithm simulation indicate that the CD-MAX and CD-MAX-Ref algorithms improve the maximum node-degree by up to 64% and run up to four times faster than similar algorithms.
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peerj-cs-538
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Accepted/In Press date: 20 April 2021
e-pub ahead of print date: 14 May 2021
Identifiers
Local EPrints ID: 478319
URI: http://eprints.soton.ac.uk/id/eprint/478319
ISSN: 2376-5992
PURE UUID: 90483bca-a195-48e5-8ce4-d9c136f55758
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Date deposited: 28 Jun 2023 16:30
Last modified: 17 Mar 2024 02:35
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Author:
S. Yumusak
Author:
S. Layazali
Author:
K. Oztoprak
Author:
R. Hassanpour
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