The macroscopic behavior of the TCP congestion avoidance algorithm
ACM SIGCOMM Computer Communication Review
Differentiated end-to-end Internet services using a weighted proportional fair sharing TCP
ACM SIGCOMM Computer Communication Review
An integrated congestion management architecture for Internet hosts
Proceedings of the conference on Applications, technologies, architectures, and protocols for computer communication
ACM SIGCOMM Computer Communication Review
A transport layer approach for achieving aggregate bandwidths on multi-homed mobile hosts
Proceedings of the 8th annual international conference on Mobile computing and networking
Bandwidth tradeoff between TCP and link-level FEC
Computer Networks: The International Journal of Computer and Telecommunications Networking
Experimental studies using photonic data services at IGrid 2002
Future Generation Computer Systems - iGrid 2002
Modeling wireless links for transport protocols
ACM SIGCOMM Computer Communication Review
The Globus Striped GridFTP Framework and Server
SC '05 Proceedings of the 2005 ACM/IEEE conference on Supercomputing
Structured streams: a new transport abstraction
Proceedings of the 2007 conference on Applications, technologies, architectures, and protocols for computer communications
Exploring TCP Parallelisation for performance improvement in heterogeneous networks
Computer Communications
Delay-based congestion avoidance for QoS provisioning in wired/wireless networks
ICC'09 Proceedings of the 2009 IEEE international conference on Communications
The dynamics of responsiveness and smoothness in heterogeneous networks
IEEE Journal on Selected Areas in Communications
Delay-based congestion avoidance for QoS provisioning in wired/wireless networks
ICC'09 Proceedings of the 2009 IEEE international conference on Communications
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It is well known that the standard TCP has become a performance bottleneck in the networks with large bandwidth-delay products. The situation gets worse if high-speed wireless links are part of the networks, due to the frequent random losses over the wireless links. This is because the standard TCP increments its congestion window too slowly in the absence of packet losses and decrements it too drastically in response to packet losses. A natural solution is to make TCP more aggressive. This approach has been exercised in the recent TCP development such as HSTCP and MulTCP which have the capability of using a single logical connection to emulate the behaviour of a set of multiple standard TCP connections. In the meantime, TCP Parallelisation uses a set of parallel TCP connections to transfer data for an application process. Then, a question arises - can the single-connection based approach achieve the similar performance as TCP Parallelisation in the environments where random packet losses prevail. Our analysis shows that TCP Parallelisation has the better performance and is more efficient for performance improvement.