容忍中断网络的双对时间协议

Q. Ye, Liang Cheng
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引用次数: 11

摘要

网络时间同步(NTS)对于任何分布式系统都是必不可少的,包括容错网络(DTNs)。DTNs中频繁的接触中断和不连续的网络连接的特点给提供NTS服务提出了新的挑战:当时间同步对等体之间的链路是机会性的时,同步操作可能会中断很长一段时间。为了解决这一挑战,我们提出了双对时间协议(DTP),它可以在DTP中实现比NTP- core更好的时钟估计和同步结果,NTP- core模拟了网络时间协议(NTP)中处理同步消息的主要功能,NTP是互联网中的计时标准。DTP的特点包括:1)DTP实现的最大时间误差约为NTP-Core的一半;ii) DTP只需要在NTP的当前架构中进行少量修改即可实现。基于现有DTP试验台跟踪数据的仿真结果验证了DTP的这些特性。
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DTP: Double-Pairwise Time Protocol for Disruption Tolerant Networks
Network time synchronization (NTS) is essential for any distributed systems, including disruption tolerant networks (DTNs). The feature of frequent contact disruptions and discontinuous network connections in DTNs raises a new challenge in providing the NTS service: synchronization operations may be interrupted for a long period of time when links between the time synchronization peers are opportunistic. To address this challenge, we propose double- pairwise time protocol (DTP) that can achieve better clock estimations and synchronization results in DTNs than NTP-Core, which models the major functionality of processing synchronization messages in network time protocol (NTP) that is the time-keeping standard in the Internet. The characteristics of DTP include: i) DTP achieves approximately half of the maximum time error achieved by NTP-Core; and ii) DTP only requires minor modifications to be implemented in the current architecture of NTP. Simulation results based on trace data collected from existing DTN testbeds validate such characteristics of DTP.
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