A Multiple Access Protocol for Multimedia Transmission over 5G Wireless Asynchronous Transfer Mode Network

The wireless network is motivated by the rapidly increasing demand for 5G network. The 5G wireless network system is expect to support different resource services sorted Constant Bit Rate, Variable Bit Rate, Available Bit Rate and Unspecific Bit Rate Request of Services. In this paper, we propose a multiple access protocol for the signal with an integrated mix of multimedia traffic in the 5G wireless network. When the buffer of base station is empty in high speed network system, services are assigned priority class on the base of Time-to-Live (TTL) with respect to the service source types within each TTL class. There is a need of piggybacking request with the package transmissions synchronously when the packets arrive at a non-empty buffer. It also shows the transmission requests are placed collision-free. The multiple access schemes are very challenging such as more efficiency, intelligent, no subsequence collision and cybersecurity. The expect simulation results are evaluate the packet throughput, packet loss and packet delay. The results illustrate the proposed scheme has better performance than the conventional packet reservation multiple access, distributed queuing request update multiple access and adaptive request channel multiple access for the 5G wireless network.