Resilience Bounds of Sensing-Based Network Clock Synchronization

机译：基于传感的网络时钟同步的弹性界限

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Recent studies exploited external periodic synchronous signals to synchronize a pair of network nodes to address a threat of delaying the communications between the nodes. However, the sensing-based synchronization may yield faults due to nonmalicious signal and sensor noises. This paper considers a system of N nodes that will fuse their peer-to-peer synchronization results to correct the faults. Our analysis gives the lower bound of the number of faults that the system can tolerate when N is up to 12. If the number of faults is no greater than the lower bound, the faults can be identified and corrected. We also prove that the system cannot tolerate more than N - 2 faults. Our results can guide the design of resilient sensing-based clock synchronization systems.

机译：最近的研究利用外部周期性同步信号来同步一对网络节点来解决延迟节点之间通信的威胁。然而，基于感测的同步可以促使由于非且信号和传感器噪声而产生故障。本文考虑了N个节点的系统，该系统将熔化其对等同步结果以纠正故障。我们的分析给出了当n最多12时系统可以容忍的故障次数的下限。如果断层的数量不大于下限，则可以识别和更正故障。我们还证明系统不能容忍超过N - 2的故障。我们的结果可以指导弹性感应的时钟同步系统设计。

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《IEEE International Conference on Parallel and Distributed Systems》|2018年|544p|共9页
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作者
Rui Tan; Linshan Jiang; Arvind Easwaran; Jothi Prasanna Shanmuga sundaram;
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中图分类总体结构、系统结构;
关键词
Synchronization; Clocks; Peer-to-peer computing; Sensors; Resilience; Delays; Power grids;

机译：同步;时钟;点对点计算;传感器;弹性;延迟;电网;

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专利

1. Resilience Bounds of Network Clock Synchronization with Fault Correction [J] . Jiang Linshan, Tan Rui, Easwaran Arvind ACM transactions on sensor networks . 2020,第4期

机译：与故障校正的网络时钟同步的弹性界限
2. Accurate clock synchronization in wireless sensor networks with bounded noise [J] . He Jianping, Duan Xiaoming, Cheng Peng, Automatica . 2017,第期

机译：无线传感器网络中的准确时钟同步，有界噪声
3. Clock synchronization protocol for wireless sensor networks with bounded communication delays [J] . Garone Emanuele, Gasparri Andrea, Lamonaca Francesco Automatica . 2015,第Null期

机译：具有受限通信延迟的无线传感器网络的时钟同步协议
4. Resilience Bounds of Sensing-Based Network Clock Synchronization [C] . Rui Tan, Linshan Jiang, Arvind Easwaran, IEEE International Conference on Parallel and Distributed Systems . 2018

机译：基于传感的网络时钟同步的弹性范围
5. Clock Synchronization in Wireless Sensor Networks: Performance Analysis and Protocol Design. [D] . Gong, Fengyuan. 2016

机译：无线传感器网络中的时钟同步：性能分析和协议设计。
6. New bounds on dark matter coupling from a global network of optical atomic clocks [O] . P. Wcisło, P. Ablewski, K. Beloy, 2018

机译：全球光学原子钟网络对暗物质耦合的新限制
7. Resilience Bounds of Network Clock Synchronization with Fault Correction [O] . Linshan Jiang, Rui Tan, Arvind Easwaran 2020

机译：与故障校正的网络时钟同步的弹性界限
8. Synchronizing Computer Clocks Using a Local Area Network [R] . Levine, J. 1990

机译：使用局域网同步计算机时钟

Resilience Bounds of Sensing-Based Network Clock Synchronization

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