TCP-Peach: a new congestion control scheme for satellite IP networks

@article{Akyildiz2001TCPPeachAN,
  title={TCP-Peach: a new congestion control scheme for satellite IP networks},
  author={Ian F. Akyildiz and Giacomo Morabito and Sergio Palazzo},
  journal={IEEE/ACM Trans. Netw.},
  year={2001},
  volume={9},
  pages={307-321}
}
Current TCP protocols have lower throughput performance in satellite networks mainly due to the effects of long propagation delays and high link error rates. In this paper, a new congestion control scheme called TCP-Peach is introduced for satellite networks. TCP-Peach is composed of two new algorithms, namely Sudden Start and Rapid Recovery, as well as the two traditional TCP algorithms, Congestion Avoidance and Fast Retransmit. The new algorithms are based on the novel concept of using dummy… 
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TCP-Peach for satellite networks: analytical model and performance evaluation
TLDR
Experiments show that TCP-Peach is robust to high link error rates as well as long propagation delays, and outperforms other TCP schemes for satellite networks.
TCP-Peach+: enhancement of TCP-Peach for satellite IP networks
TLDR
Two new algorithms, jump start and quick recovery, are proposed for congestion control in satellite networks, based on low priority segments, which are used to probe the availability of network resources as well as error recovery.
TCP PeachPlus : Enhancement of TCP Peach for Satellite IP Networks
In this letter an improvement to TCP-Peach congestion control scheme, called TCP-PeachPlus, is proposed in order to further improve the goodput performance for satellite IP networks. In
TCP-Cherry: A new approach for TCP congestion control over satellite IP networks
Modified TCP Peach Protocol for Satellite based Networks
TLDR
TCP Peach is found to be better than the other TCP Protocol variants in case of satellite based networks but its performance also degrades when the packet error probability is high and in cases where there are multiple packet losses in the same window.
TCP-Peachtree: a multicast transport protocol for satellite IP networks
  • I. Akyildiz, Jian Fang
  • Computer Science, Business
    IEEE Journal on Selected Areas in Communications
  • 2004
TLDR
The simulation results show that the congestion control algorithms of TCP-Peachtree outperform the TCP-NewReno when combined with the authors' hierarchical groups and improve the throughput performance during rain fades, and it is shown that TCP- peachtree achieves fairness and is very highly scalability.
A New Transmission Control Protocol for Satellite Networks
TLDR
TP-S, a novel transport control protocol, is introduced for satellite IP networks to avoid the problems of long propagation delay, great bandwidth asymmetry, high sporadic Bit Error Rate and etc., TCP performance degrades obviously on the satellite communication networks.
TCP-ATCA: Improved Transmission Control Algorithm in Satellite Network
TCP-Peach+: Enhancement of TCP-Peach for
TLDR
Two new algorithms, Jump Start and Quick Recovery, are proposed for congestion control in satellite networks, based on low priority segments, which are used to probe the availability of network resources as well as error recovery.
A reliable multicast transport protocol for satellite IP networks
  • Jian Fang, I. Akyildiz
  • Computer Science
    Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE
  • 2002
TLDR
The simulation results show that the congestion control algorithms in TCP Peachtree outperform TCP NewReno when combined with the hierarchical groups and ACK filter, and it is shown that TCPPeachtree can have very good scalability.
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