Novel Clock Phase Offset and Skew Estimation Using Two-Way Timing Message Exchanges for Wireless Sensor Networks

Kyoung-Lae Noh; Qasim Mahmood Chaudhari; Erchin Serpedin; Bruce W. Suter

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Novel Clock Phase Offset and Skew Estimation Using Two-Way Timing Message Exchanges for Wireless Sensor Networks

机译：无线传感器网络使用双向定时消息交换的新型时钟相位偏移和偏斜估计

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Recently, a few efficient timing synchronization protocols for wireless sensor networks (WSNs) have been proposed with the goal of maximizing the accuracy and minimizing the power utilization. This paper proposes novel clock skew estimators assuming different delay environments to achieve energy-efficient network-wide synchronization for WSNs. The proposed clock skew correction mechanism significantly increases the re-synchronization period, which is a critical factor in reducing the overall power consumption. The proposed synchronization scheme can be applied to the conventional protocols without additional overheads. Moreover, this paper derives the Cramer–Rao lower bounds and the maximum likelihood estimators under different delay models and assumptions. These analytical metrics serves as good benchmarks for the thus far reported experimental results.

机译：近来，已经提出了一些用于无线传感器网络（WSN）的有效定时同步协议，其目的是使精度最大化并使功率利用最小。本文提出了一种新颖的时钟偏斜估计器，该估计器假设在不同的延迟环境下实现WSN的节能网络范围内的同步。提出的时钟偏斜校正机制显着增加了重新同步周期，这是降低整体功耗的关键因素。所提出的同步方案可以应用于常规协议而没有额外的开销。此外，本文推导了不同延迟模型和假设下的Cramer-Rao下界和最大似然估计。这些分析指标可作为迄今为止报告的实验结果的良好基准。

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来源
《IEEE Transactions on Communications》 |2007年第2007期|p.766-777|共12页
作者
Kyoung-Lae Noh; Qasim Mahmood Chaudhari; Erchin Serpedin; Bruce W. Suter;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
Clock synchronization; timing-sync protocol for sensor networks (TPSN); wireless sensor network (WSN);

机译：时钟同步;传感器网络的定时同步协议（TPSN）;无线传感器网络（WSN）;

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专利

1. Clock Offset and Skew Estimation Using Hybrid One-Way Message Dissemination and Two-Way Timestamp Free Synchronization in Wireless Sensor Networks [J] . Wang Heng, Gong Pengfei, Yu Fei, IEEE communications letters . 2020,第12期

机译：使用混合单向消息传播和无线传感器网络中的双向时间戳自由同步时钟偏移和偏斜估计
2. Estimation of Clock Skew for Time Synchronization Based on Two-Way Message Exchange Mechanism in Industrial Wireless Sensor Networks [J] . Heng Wang, Lun Shao, Min Li, Industrial Informatics, IEEE Transactions on . 2018,第11期

机译：基于双向消息交换机制的工业无线传感器网络中时间同步的时钟偏斜估计
3. Energy-Efficient Time Synchronization Based on Asynchronous Source Clock Frequency Recovery and Reverse Two-Way Message Exchanges in Wireless Sensor Networks [J] . Kyeong Soo Kim, Sanghyuk Lee, Eng Gee Lim IEEE Transactions on Communications . 2017,第1期

机译：无线传感器网络中基于异步源时钟频率恢复和反向双向消息交换的节能时间同步
4. Time-varying clock offset estimation in two-way timing message exchange in wireless sensor networks using factor graphs [C] . Ahmad, Aitzaz IEEE International Conference on Acoustics, Speech and Signal Processing;ICASSP . 2012

机译：使用因子图估计无线传感器网络中双向定时消息交换中的时变时钟偏移
5. Estimation of clock parameters and performance benchmarks for synchronization in wireless sensor networks. [D] . Chaudhari, Qasim Mahmood. 2008

机译：估算无线传感器网络中同步的时钟参数和性能基准。
6. Multiple Two-Way Time Message Exchange (TTME) Time Synchronization for Bridge Monitoring Wireless Sensor Networks [O] . Fanrong Shi, Xianguo Tuo, Simon X. Yang, 2017

机译：用于桥梁监控无线传感器网络的多个双向时间消息交换（TTME）时间同步
7. TIME-VARYING CLOCK OFFSET ESTIMATION IN TWO-WAY TIMING MESSAGE EXCHANGE IN WIRELESS SENSOR NETWORKS USING FACTOR GRAPHS‡ [O] . 2016

机译：使用因子图在无线传感器网络中进行双向时间消息交换的时变时钟偏移估计‡

Novel Clock Phase Offset and Skew Estimation Using Two-Way Timing Message Exchanges for Wireless Sensor Networks

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