The paper addresses the TCP performance enhancing proxy techniques broadly deployed in wireless networks. Drawing on available models for TCP latency, we describe an analytical model for the latency and the buffer requirements related to the split-TCP mechanism. Although the model applicability is broad, we present and evaluate the model in the context of geostationary satellite networks, where buffering requirements may become more dramatic. Simulation results are compared with the analytical model estimates and show that the model captures the impact of various parameters affecting the dynamics of the component connections traversing the terrestrial and the satellite network
The Transport Control Protocol (TCP) performs well on wired networks, where packet losses occur most...
The elasticity of transmission control protocol (TCP) traffic complicates attempts to provide perfor...
The Transmission Control Protocol (TCP) is the most widely used transport protocol for the Internet...
The paper addresses the TCP performance enhancing proxy techniques broadly deployed in wireless netw...
The last decade has seen the clear dominance of the Internet Protocol in the data communication netw...
Abstract: In this paper, we discuss the use of the split-connection mechanism in networks involving ...
We focus in this paper on the undesirable phenomenon of frequent losses during slow-start when TCP o...
Abstract — In this paper we consider the transmission of TCP flows over networks including geostatio...
Satellites play important roles in global telecommunications. However, the performance of Transmiss...
Geostationary satellite links have characteristics that can degrade the performance of TCP. The prop...
Satellites represent a well-assessed approach for delivering broadband service. Several satellite sy...
We investigate the use of fixed-point methods for predicting the performance of multiple TCP flows s...
This paper investigates the performance of two TCP enhancements (i.e., Scalable TCP and HighSpeed TC...
Abstract — This paper describes a TCP splitting solution for multi-access bent-pipe GEO satellite ne...
The performances of TCP over satellite can be very poor due to long delay, high bandwidth and BER ch...
The Transport Control Protocol (TCP) performs well on wired networks, where packet losses occur most...
The elasticity of transmission control protocol (TCP) traffic complicates attempts to provide perfor...
The Transmission Control Protocol (TCP) is the most widely used transport protocol for the Internet...
The paper addresses the TCP performance enhancing proxy techniques broadly deployed in wireless netw...
The last decade has seen the clear dominance of the Internet Protocol in the data communication netw...
Abstract: In this paper, we discuss the use of the split-connection mechanism in networks involving ...
We focus in this paper on the undesirable phenomenon of frequent losses during slow-start when TCP o...
Abstract — In this paper we consider the transmission of TCP flows over networks including geostatio...
Satellites play important roles in global telecommunications. However, the performance of Transmiss...
Geostationary satellite links have characteristics that can degrade the performance of TCP. The prop...
Satellites represent a well-assessed approach for delivering broadband service. Several satellite sy...
We investigate the use of fixed-point methods for predicting the performance of multiple TCP flows s...
This paper investigates the performance of two TCP enhancements (i.e., Scalable TCP and HighSpeed TC...
Abstract — This paper describes a TCP splitting solution for multi-access bent-pipe GEO satellite ne...
The performances of TCP over satellite can be very poor due to long delay, high bandwidth and BER ch...
The Transport Control Protocol (TCP) performs well on wired networks, where packet losses occur most...
The elasticity of transmission control protocol (TCP) traffic complicates attempts to provide perfor...
The Transmission Control Protocol (TCP) is the most widely used transport protocol for the Internet...