Improvement of Packet Delivery Ratio in Wireless Mesh Network Using Hybrid Routing Protocol in VoIP Application
Keywords:
Voice over Internet Protocol (VoIP),, relay selection, Wireless Mesh Networks (WMN), Internet of Things (IoT)Abstract
Wireless Mesh Networks (WMN) are thought to be the best solution for last-mile communication network supply because to their flexible deployment and reasonably priced implementation. One of the main components of WMNs is multi-path gearbox, which can lead to improved ruggedness, capacity, and territorial service. Multi-path WMNs are inexpensive, quick to set up, and use less wires than other network configurations. Broadband wireless technology has become more appealing as a result of the worldwide integration of Wireless Local Area Networks. VoIP has grown in popularity as a wireless LAN Internet application. Future cellular networks need to be able to process video with high quality, including VoIP. This paper proposes a blockchain-based Topographical Relay Selection Secure Routing (B-TRSSR) method for multi-hop communication that takes bandwidth, latency, and flow management into account. By avoiding all dangerous zones and assuring the security of sent packets, the suggested technique chooses an entirely different transmission path. By implementing an Adaptive Intrusion Detection System (AIDS), numerous security threats such as tampering assaults, dropping attacks, flooding attacks, and malicious attacks are discovered and eliminated. The results showed how a number of factors, such as load and mobility, may affect Wi-Fi performance. The article's performance metrics encompassed end-to-end latency, packet delay ratio, throughput, and delay jitter. An input metric for simulations is mobility.
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Ghaleb, F. A., Al-Rimy, B. A. S., Boulila, W., Saeed, F., Kamat, M., Rohani, F., &Razak, S. A. (2021). Fairness-oriented semichaotic genetic algorithm-based channel assignment technique for node starvation problem in wireless mesh networks. Computational Intelligence and Neuroscience, 2021.
ThandavaMeganathan, N., &Palanichamy, Y. (2015). Privacy preserved and secured reliable routing protocol for wireless mesh networks. The Scientific World Journal, 2015.
Tian, L., Li, M., Si, P., Yang, R., Sun, Y., & Wang, Z. (2023). Design and Optimization in MEC-Based Intelligent Rail System by Integration of Distributed Multi-Hop Communication and Blockchain. Mathematical Problems in Engineering, 2023.
Prasath, A. R. (2021). Bi-Fitness Swarm Optimizer: Blockchain-Assisted Secure Swarm Intelligence Routing Protocol for MANET. Indian Journal of Computer Science and Engineering, 12(5), 1442-1458.
Loret, J. S., & Kumar, T. G. (2021). An Authenticated Trust Based Security Mechanism for Video Transmission in Wireless Mesh Networks. Journal of Internet Technology, 22(4), 757-764.
Bello, O. M., &Taiwe, K. D. (2016, March). Mesh node placement in wireless mesh network based on multiobjective evolutionary metaheuristic. In Proceedings of the International Conference on Internet of Things and Cloud Computing (pp. 1-6).
Ilakkiya, N., &Rajaram, A. (2023). Blockchain-assisted Secure Routing Protocol for Cluster-based Mobile-ad Hoc Networks. INTERNATIONAL JOURNAL OF COMPUTERS COMMUNICATIONS & CONTROL, 18(2).
Zeng, Z., Zhang, X., & Xia, Z. (2022). Intelligent blockchain-based secure routing for multidomain SDN-enabled IoT networks. Wireless Communications and Mobile Computing, 2022, 1-10.
Ajayi, A. O., Adigun, A. A., & Ismaila, W. O. (2015). A review of routing protocols for practical rural wireless mesh networks (WMNs). International Journal of Computer Applications, 114(16).
Maliwatu, R. (2021). A new connectivity strategy for wireless mesh networks using dynamic spectrum access.
Kishore, M. K., Nancharaiah, B., & Kumar, V. G. (2023). BLOCKCHAIN-BASED TOPOGRAPHICAL RELAY SELECTION SECURE ROUTING (B-TRSSR) TECHNIQUE FOR THE MULTI-HOP COMMUNICATION IN WIRELESS MESH NETWORKS (WMN). Journal of Data Acquisition and Processing, 38(2), 1763.
Kishore, M. K., Nancharaiah, B., & Kumar, V. G. (2023). NOVEL OPTIMIZATION ALGORITHM TO ENHANCING THE PERFORMANCE FOR VOIP AND MDVC VIDEO TRANSMISSION IN WIRELESS MESH NETWORK. Journal of Data Acquisition and Processing, 38(2), 1749.
Shillington, L., & Tong, D. (2011). Maximizing wireless mesh network coverage. International Regional Science Review, 34(4), 419-437.
Bao, J., Wu, J., Liu, C., Jiang, B., & Tang, X. (2017). Optimized power allocation and relay location selection in cooperative relay networks. Wireless Communications and Mobile Computing, 2017.
Ghaleb, F. A., Al-Rimy, B. A. S., Boulila, W., Saeed, F., Kamat, M., Rohani, F., & Razak, S. A. (2021). Fairness-oriented semichaotic genetic algorithm-based channel assignment technique for node starvation problem in wireless mesh networks. Computational Intelligence and Neuroscience, 2021.
Thandava Meganathan, N., & Palanichamy, Y. (2015). Privacy preserved and secured reliable routing protocol for wireless mesh networks. The Scientific World Journal, 2015.
Seyedzadegan, M., Othman, M., Ali, B. M., & Subramaniam, S. (2011, November). Wireless mesh networks: WMN overview, WMN architecture. In International conference on communication engineering and networks IPCSIT (Vol. 19, p. 2).
Bayer, N., Xu, B., Rakocevic, V., & Habermann, J. (2010). Application-aware scheduling for VoIP in wireless mesh networks. Computer Networks, 54(2), 257-277.
Kishore, M. K., Nancharaiah, B., & Kumar, V. G. (2023). NOVEL OPTIMIZATION ALGORITHM TO ENHANCING THE PERFORMANCE FOR VOIP AND MDVC VIDEO TRANSMISSION IN WIRELESS MESH NETWORK. Journal of Data Acquisition and Processing, 38(2), 1749.
Chai, Y., & Zeng, X. J. (2019). Regional condition-aware hybrid routing protocol for hybrid wireless mesh network. Computer Networks, 148, 120-128.
Rao, Y. M., Subramanyam, M. V., & Prasad, K. S. (2018). Cluster based hybrid routing protocol for wireless mesh networks. Wireless Personal Communications, 103, 3009-3023.
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