Energy efficient framework to implement next generation network protocol using ATM technology

Abstract

Real-time and multimedia apps on an integrated service internet are quickly becoming a realization. In the meanwhile, ATM technology is becoming available. Integrating ATM networks into this internet of integrated services is a significant challenge. Traditional TCP over ATM is one of the ways that is currently extensively used, effectively overcoming the problem of accessing network and compatibility. Providing quality-of-service (QoS) assurances for internet traffic flowing over ATM subnets is still a significant challenge. Integrating TCP/IP and Asynchronous Transfer Mode (ATM) is a problematic systemic issue in today's global networks. Asynchronous Transfer Mode's particular features must be integrated with the TCP/IP framework. A precise assessment of TCP/IP over ATM efficiency will be a valuable tool for combining the two approaches. When not used properly, TCP errors and traffic regulation algorithms were designed for best-effort networks and may degrade results on ATM networks. Quality of Service (QoS) is also hidden from programmed using standard overlay technologies such as LAN Emulation or Classic TCP over ATM. For optimal communication, this paper provides complete and standardized research and analysis of Protocol via ATM in a 5G network environment. Our proposed novel framework, TCP applications from QoS, provides Enhanced Energy Zam-Zam Transmission Control Protocol (EEZZTCP). The performance metrics like an end-to-end delay, throughput, Energy utilized, and packet delivery ratio are compared to another method.