TELKOMNIKA Telecommunication, Computing, Electronics and Control
Performance analysis of multilayer multicast MANET CRN based on steiner minimal tree algorithm
Dublin Core
Title
TELKOMNIKA Telecommunication, Computing, Electronics and Control
Performance analysis of multilayer multicast MANET CRN based on steiner minimal tree algorithm
Performance analysis of multilayer multicast MANET CRN based on steiner minimal tree algorithm
Subject
CRN, MANET, POS, Rayleigh fading, SMT
Description
In this study, the multicast mobile ad hoc (MANET) CRN has been
developed, which involves multi-hop and multilayer consideration and
Steiner minimal tree (SMT) algorithm is employed as the router protocol. To enhance the network performance with regards to throughput and packet delivery rate (PDR), as channel assignment scheme, the probability of success (POS) is employed that accounts for the channel availability and the time needed for transmission when selecting the best channel from the numerous available channels for data transmission from the source to all destinations nodes effectively. Within Rayleigh fading channels under various network parameters, a comparison is done for the performance of SMT multicast (MANET) CRN with POS scheme versus maximum data rate (MDR), maximum average spectrum availability (MASA) and random channel assignment schemes. Based on the simulation results, the SMT multicast (MANET) CRN with POS scheme was seen to demonstrate the best performance versus other schemes. Also, the results proved that the throughput and PDR performance are improved as the number the primary channels and the channel’s bandwidth increased while dropped as the value of packet size D increased. The network’s performance grew with rise in the value of idle probability (PI ) since the primary user’s (PU) traffic load is low when the value of PI is high.
developed, which involves multi-hop and multilayer consideration and
Steiner minimal tree (SMT) algorithm is employed as the router protocol. To enhance the network performance with regards to throughput and packet delivery rate (PDR), as channel assignment scheme, the probability of success (POS) is employed that accounts for the channel availability and the time needed for transmission when selecting the best channel from the numerous available channels for data transmission from the source to all destinations nodes effectively. Within Rayleigh fading channels under various network parameters, a comparison is done for the performance of SMT multicast (MANET) CRN with POS scheme versus maximum data rate (MDR), maximum average spectrum availability (MASA) and random channel assignment schemes. Based on the simulation results, the SMT multicast (MANET) CRN with POS scheme was seen to demonstrate the best performance versus other schemes. Also, the results proved that the throughput and PDR performance are improved as the number the primary channels and the channel’s bandwidth increased while dropped as the value of packet size D increased. The network’s performance grew with rise in the value of idle probability (PI ) since the primary user’s (PU) traffic load is low when the value of PI is high.
Creator
Basma Nazar Nadhim, Sarab Kamal Mahmood
Source
DOI: 10.12928/TELKOMNIKA.v18i1.13639
Publisher
Universitas Ahmad Dahlan
Date
February 2020
Contributor
Sri Wahyuni
Rights
ISSN: 1693-6930
Relation
http://journal.uad.ac.id/index.php/TELKOMNIKA
Format
PDF
Language
English
Type
Text
Coverage
TELKOMNIKA Telecommunication, Computing, Electronics and Control
Files
Collection
Citation
Basma Nazar Nadhim, Sarab Kamal Mahmood, “TELKOMNIKA Telecommunication, Computing, Electronics and Control
Performance analysis of multilayer multicast MANET CRN based on steiner minimal tree algorithm,” Repository Horizon University Indonesia, accessed April 4, 2025, https://repository.horizon.ac.id/items/show/3560.
Performance analysis of multilayer multicast MANET CRN based on steiner minimal tree algorithm,” Repository Horizon University Indonesia, accessed April 4, 2025, https://repository.horizon.ac.id/items/show/3560.