The peak-hopper: a new end-to-end retransmission timer for reliable unicast transport

机译：峰值料斗：新的端到端重传计时器，可实现可靠的单播传输

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We analyze the RTO algorithm standardized for TCP and SCTP (V. Paxon et al., 2000) that is widely deployed in the Internet, referred to as the RFC2988-RTO in this paper. We briefly demonstrate three well-known problems of the RFC2988-RTO. We then develop a new RTO algorithm called the peak-hopper-RTO (PH-RTO) that eliminates the mentioned problems. Through extensive simulations in ns2, we evaluate the effectiveness of both RTO algorithms. The key advantage of the PH-RTO over the RFC2988-RTO is its predictability. Although the RFC2988-RTO often exhibits low loss detection times, it also exhibits frequent "RTO outliers" that can lead to exceptionally long loss detection times. The loss detection times of the PH-RTO are much more closely spread around the mean. Finally, our results show that the PH-RTO is much more robust to sudden delay spikes that are particularly common in wireless networks.

机译：我们分析了标准化的用于TCP和SCTP的RTO算法（V. Paxon等，2000），该算法在Internet中已广泛部署，在本文中称为RFC2988-RTO。我们简要演示了RFC2988-RTO的三个众所周知的问题。然后，我们开发了一种新的RTO算法，称为Peak-hopper-RTO（PH-RTO），它消除了上述问题。通过在ns2中进行广泛的仿真，我们评估了两种RTO算法的有效性。相较于RFC2988-RTO，PH-RTO的主要优势在于其可预测性。尽管RFC2988-RTO通常表现出低的丢失检测时间，但它也表现出频繁的“ RTO离群值”，这可能导致异常长的丢失检测时间。 PH-RTO的丢失检测时间在平均值附近更加紧密地分布。最后，我们的结果表明，PH-RTO对于突然的延迟尖峰具有更强的鲁棒性，这在无线网络中尤其常见。

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《INFOCOM 2004. Twenty-third AnnualJoint Conference of the IEEE Computer and Communications Societies》|2004年|p.2502-2513|共12页
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Ekstrom H.; Ludwig R.;
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中图分类无线电电子学、电信技术;
关键词
telecommunication network reliability; transport protocols; Internet; radio networks; end-to-end retransmission timer; reliable unicast transport; retransmission timeout value algorithm; TCP; transport control protocol; SCTP; Internet; peak-hopper-RTO algorithm; RFC2988-RTO algorithm; loss detection time; wireless network;

机译：电信网络可靠性;传输协议; Internet;无线电网络;端到端重传计时器;可靠的单播传输;重传超时值算法; TCP;传输控制协议; SCTP; Internet; peak-hopper-RTO算法; RFC2988-RTO算法损耗检测时间无线网络;

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专利

1. Reliable Total Dominant Pruning: A Reliable Flooding Scheme with Partial Unicast Retransmissions for MANET [J] . Sega DIALLO, K. Naik, G. Kitagata, 電子情報通信学会技術研究報告. ネットワ-クシステム. Network Systems . 2004,第273期

机译：可靠的总支配修剪：MANET的部分单播重传的可靠洪泛方案
2. Reliable Total Dominant Pruning: A Reliable Flooding Scheme with Partial Unicast Retransmissions for MANET [J] . Sega DIALLO, K. Naik, G. Kitagata, 電子情報通信学会技術研究報告. 情報ネットワ-ク. Information Networks . 2004,第275期

机译：可靠的总支配修剪：MANET的部分单播重传的可靠洪泛方案
3. Reliable Total Dominant Pruning: A Reliable Flooding Scheme with Partial Unicast Retransmissions for MANET [J] . Sega DIALLO, K. Naik, G. Kitagata, 電子情報通信学会技術研究報告. 通信方式. Communication Systems . 2004,第277期

机译：可靠的总支配修剪：MANET的部分单播重传的可靠洪泛方案
4. The peak-hopper: a new end-to-end retransmission timer for reliable unicast transport [C] . Ekstrom H., Ludwig R. Annual Joint Conference of the IEEE Computer and Communications Societies . 2004

机译：峰值料斗：用于可靠单播运输的新端到端重传计时器
5. Improving end-to-end reliable transport using parallel transmission control protocol sessions. [D] . Hacker, Thomas J. 2004

机译：使用并行传输控制协议会话来改善端到端的可靠传输。
6. Retransmission Avoidance for Reliable Data Delivery in Underwater WSNs [O] . Babar Ali, Arshad Sher, Nadeem Javaid, 2018

机译：避免在水下WSN中可靠传输数据的重新传输
7. The Peak-Hopper: A New End-to-End Retransmission Timer for Reliable Unicast Transport [O] . 2008

机译：峰值跳跃者：用于可靠单播传输的新型端到端重传计时器

The peak-hopper: a new end-to-end retransmission timer for reliable unicast transport

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