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- articleJuly 2015
Paths selection-based resequencing queue length in concurrent multipath transfer
International Journal of Communication Systems (IJOCS), Volume 28, Issue 11Pages 1805–1827https://doi.org/10.1002/dac.2792Traditionally, concurrent multipath transfer CMT is used to achieve aggregate bandwidth in next generation networks, which are expected to be heterogeneous, integrating access networks employing different technologies. Simultaneous data transfer over ...
- research-articleApril 2015
Distortion-Aware Concurrent Multipath Transfer for Mobile Video Streaming in Heterogeneous Wireless Networks
IEEE Transactions on Mobile Computing (ITMV), Volume 14, Issue 4Pages 688–701https://doi.org/10.1109/TMC.2014.2334592The massive proliferation of wireless infrastructures with complementary characteristics prompts the bandwidth aggregation for Concurrent Multipath Transfer (CMT) over heterogeneous access networks. Stream Control Transmission Protocol (SCTP) is the ...
- articleDecember 2014
Packet reordering analysis for concurrent multipath transfer
International Journal of Communication Systems (IJOCS), Volume 27, Issue 12Pages 4510–4526https://doi.org/10.1002/dac.2632Path diversity of different concurrent paths inevitably introduces out-of-order packet delivery, which leads to unnecessary retransmissions and a severely lowered data throughput. In order to analyze the fundamental behavior and influencing factors of ...
- articleNovember 2014
Concurrent multipath traffic impersonating for enhancing communication privacy
International Journal of Communication Systems (IJOCS), Volume 27, Issue 11Pages 2985–2996https://doi.org/10.1002/dac.2519Network communication traditionally only uses encryption techniques for privacy and a single path for routing, which makes the communication vulnerable to attackers. Attackers easily obtain much important information by eavesdropping on the path and ...
- research-articleNovember 2013
CMT-QA: Quality-Aware Adaptive Concurrent Multipath Data Transfer in Heterogeneous Wireless Networks
IEEE Transactions on Mobile Computing (ITMV), Volume 12, Issue 11Pages 2193–2205https://doi.org/10.1109/TMC.2012.189Mobile devices equipped with multiple network interfaces can increase their throughput by making use of parallel transmissions over multiple paths and bandwidth aggregation, enabled by the stream control transport protocol (SCTP). However, the different ...
- ArticleSeptember 2011
RWND Based ARD-CMT SCTP for Wireless Transmission
HPCC '11: Proceedings of the 2011 IEEE International Conference on High Performance Computing and CommunicationsPages 930–934https://doi.org/10.1109/HPCC.2011.134Recent research on extending the stream control transmission protocol (SCTP) multi-homing to support concurrent multipath transfer (CMT) has been in progress. The CMT, being capable of simultaneously transferring data chunks over all available paths, ...
- research-articleMarch 2010
Implementation and evaluation of concurrent multipath transfer for SCTP in the INET framework
SIMUTools '10: Proceedings of the 3rd International ICST Conference on Simulation Tools and TechniquesArticle No.: 15, Pages 1–8https://doi.org/10.4108/ICST.SIMUTOOLS2010.8673The steadily growing importance of resilience-critical Internet applications leads to a rising number of multi-homed sites and systems. But since the protocols of the classical Internet - particularly TCP - assume a single access path only, the number ...
- ArticleDecember 2009
A cross-layer approach to optimize the performance of concurrent multipath transfer in wireless transmission
Along with the rapid progress of the network technologies, as well as the vast cost decreasing of the peripherals, terminals with several interfaces have become increasingly common. Therefore, developing methods for enabling the concurrent use of ...
- ArticleOctober 2008
Non-Renegable Selective Acknowledgments (NR-SACKs) for SCTP
ICNP '08: Proceedings of the 2008 IEEE International Conference on Network ProtocolsPage 187https://doi.org/10.1109/ICNP.2008.4697037In both TCP and SCTP, selectively acked (SACKed) out-of-order data is implicitly renegable; that is, the receiver can later discard SACKed data. The possibility of reneging forces the transport sender to maintain copies of SACKed data in the send buffer ...