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access icon free Performance evaluation of combining SMT-ETX metric with POS scheme for implementing multilayer multicast mobile ad hoc network (MANET) CRN

© The Institution of Engineering and Technology
Received 17/06/2019, Accepted 12/11/2019, Revised 21/10/2019, Published 15/11/2019

In this study, the implementation of a multicast router protocol with a multilayer and multi-hop consideration on the ad hoc CRN mobile was achieved through the use of a combined expected transmission count metric (ETX) with the Steiner minimal tree (SMT). The conjoined SMT-ETX multicast CRN channel spectrums, which were used for measuring the availability of channels and the time required for data transmission from a given cognitive radio (CR) source to all of the CR destinations nodes was found to have resulted in the most efficient channel that was largely based on the possibility of success (POS) channel assignment scheme's probability success. Apart from demonstrating the best throughput and packet delivery rate performances for SMT-ETX multicast CRN with POS scheme than those of the three multicast router protocol (MASA, MDR and RS) schemes with different primary users (PUs) traffic load and network parameters at Rayleigh fading channel, the SMT-ETX multicast CRN with the decreasing PUs traffic load had also implied a higher chance of achieving the available secondary users channels in the CR network.

Inspec keywords: cognitive radio; routing protocols; Rayleigh channels; channel allocation; mobile ad hoc networks; trees (mathematics); probability; multicast protocols

Other keywords: mobile ad hoc network; packet delivery rate performances; Rayleigh fading channel; CR network; conjoined SMT-ETX multicast CRN channel spectrums; ad hoc CRN mobile; Steiner minimal tree; secondary users channels; multilayer multicast; CR destinations nodes; data transmission; PU traffic load; POS scheme; MANET; channel assignment scheme; possibility of success; ad hoc network; combined expected transmission count metric; SMT-ETX metric; multicast router protocol

Subjects: Communication network design, planning and routing; Other topics in statistics; Combinatorial mathematics; Mobile radio systems; Protocols

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