Abstract
Due to their spontaneous deployment and reasonably priced implementation, Wireless Mesh Networks (WMN) are seen to be an excellent solution for delivering communication networks in the last mile. Multi-path transmission is a key element of WMNs, which can result in enhanced territory service, enhanced ruggedness, and increased capacity. Multi-path WMNs minimize the need for a large number of wires and can be set up quickly and at a low cost. The globally integrated implementation of Wireless Local Area Networks has enhanced the appeal of broadband wireless technology. VoIP has become a popular Internet application in wireless LAN. Providing great results in video processing, such as VoIP, is a must for upcoming cellular networks. A widespread and interactive video streaming system for Multiple Description Video Coding (MDVC) based video streaming across WMNs to heterogeneous receivers. MDC is a useful method for video broadcasting via erratic pathways due to variable channel quality. A video streaming system for instruction is proposed, which is built on a wireless mesh network. A wireless mesh system is a conscious, subconscious, and sustainable intelligent technology that uses developmental progress to rapidly set up a network. In this system for multimedia transmitting data, internet service is critical. The scalable video coding approach used in this unique system allows the video server to provide layered videos to multiple user groups. The outcomes demonstrated how several variables, including mobility and load, may have an impact on Wi-Fi performance. Mobility is simulation input metrics, and the article's performance metrics included packet delay ratio, throughput, delay jitter, and end-to-end latency.
Keyword
Wireless Mesh Networks (WMN), Packet Delivery, Jitter, Throughput, Collision Detection, Voice over Internet Protocol (VoIP), Multiple Description Video Coding (MDVC).
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