This page has only limited features, please log in for full access.
Multimedia services will play a prominent role in the next generation of internet. With increasing real time requirements, internet technology has to provide Quality of Service (QoS) for various kinds of real time streaming services. When the bandwidth required exceeds the available network resources, network paths can get congested, which results in a delay in packet delivery and packet loss. This situation leads to the design of new strategies for congestion avoidance and control. One of the popular and appropriate congestion control mechanisms that is useful in transmitting multimedia applications in the transport layer is TCP Friendly Rate Control Protocol (TFRC). However, TFRC still suffers from packet loss and delay due to long distance heavy traffic and network fluctuations. This paper introduces a number of key concerns like enhanced Round Trip Time (RTT) and Retransmission Time Out (RTO) calculations, Enhanced Average Loss Interval (ALI) methods and improved Time to Live (TTL) features are applied to TFRC to enhance the performance of TFRC over wired networks.
Nalavala Ramanjaneya Reddy; Pakanati Chenna Reddy; Mokkala Padmavathamma. Efficient Traffic Engineering Strategies for Improving the Performance of TCP Friendly Rate Control Protocol. Future Internet 2017, 9, 74 .
AMA StyleNalavala Ramanjaneya Reddy, Pakanati Chenna Reddy, Mokkala Padmavathamma. Efficient Traffic Engineering Strategies for Improving the Performance of TCP Friendly Rate Control Protocol. Future Internet. 2017; 9 (4):74.
Chicago/Turabian StyleNalavala Ramanjaneya Reddy; Pakanati Chenna Reddy; Mokkala Padmavathamma. 2017. "Efficient Traffic Engineering Strategies for Improving the Performance of TCP Friendly Rate Control Protocol." Future Internet 9, no. 4: 74.