Lightweight synchronization algorithm with self-calibration for Industrial LoRa Sensor Networks

被引:0
作者
Tessaro, Luca [1 ]
Raffaldi, Cristiano [2 ]
Rossi, Maurizio [1 ]
Brunelli, Davide [1 ]
机构
[1] Univ Trento, Dept Ind Engn, Trento, Italy
[2] Adige SPA, BLM Grp, Levico Terme, Italy
来源
2018 IEEE INTERNATIONAL WORKSHOP ON METROLOGY FOR INDUSTRY 4.0 AND IOT (METROIND4.0&IOT) | 2018年
关键词
TDMA; Synchronization; LoRa; Wireless Sensors Network; IIoT; CLOCK SYNCHRONIZATION; TIME SYNCHRONIZATION;
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
Wireless sensor and actuator networks are gaining momentum in the era of Industrial Internet of Things IIoT. The usage of the close-loop data from sensors in the manufacturing chain is extending the common monitoring scenario of the Wireless Sensors Networks WSN where data were just logged. In this paper we present an accurate timing synchronization for TDMA implemented on the state of art IoT radio, such as LoRa, that is a good solution in industrial environments for its high robustness. Experimental results show how it is possible to modulate the drift correction and keep the synchronization error within the requirements.
引用
收藏
页码:259 / 263
页数:5
相关论文
共 50 条
  • [31] Self-stabilizing Synchronization in Mobile Sensor Networks with Covering
    Beauquier, Joffroy
    Burman, Janna
    DISTRIBUTED COMPUTING IN SENSOR SYSTEMS, PROCEEDINGS, 2010, 6131 : 362 - +
  • [32] Secure and self-stabilizing clock synchronization in sensor networks
    Hoepman, Jaap-Henk
    Larsson, Andreas
    Schiller, Elad M.
    Tsigas, Philippas
    STABILIZATION, SAFETY, AND SECURITY OF DISTRIBUTED SYSTEMS, PROCEEDINGS, 2007, 4838 : 340 - 356
  • [33] Localization in time and space for wireless sensor networks: An efficient and lightweight algorithm
    Oliveira, Horacio A. B. F.
    Boukerche, Azzedine
    Nakamura, Eduardo F.
    Loureiro, Antonio A. F.
    PERFORMANCE EVALUATION, 2009, 66 (3-5) : 209 - 222
  • [34] Maximum Likelihood Estimation of Relative Clock Skew for Distributed Time Synchronization in Industrial Wireless Sensor Networks
    Wang, Zhaowei
    Yong, Tailiang
    Song, Xiangjin
    Sun, Dehua
    IEEE SENSORS JOURNAL, 2023, 23 (24) : 31359 - 31367
  • [35] Adaptive and Efficient Time Synchronization Optimization Algorithm in Wireless Sensor Networks
    Wang Yijun
    Qian Zhihong
    JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY, 2022, 44 (08) : 2802 - 2813
  • [36] Time synchronization algorithm based on mobility model for underwater sensor networks
    Wang H.-Q.
    Wen X.-X.
    Lin J.-Y.
    Feng G.-S.
    Lyu H.-W.
    Tongxin Xuebao/Journal on Communications, 2016, 37 (01):
  • [37] Genetic Based Time Synchronization Optimize Algorithm for Wireless Sensor Networks
    Chen Chang
    Wang Dongxiao
    Xiao Liangang
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON LOGISTICS, ENGINEERING, MANAGEMENT AND COMPUTER SCIENCE, 2014, 101 : 1 - 4
  • [38] Improved Time Synchronization Algorithm for Wireless Sensor Networks based on Clustering
    Jia, Xiangli
    Lu, Yang
    Wei, Xing
    Tao, Wenjing
    PROCEEDINGS OF 2019 IEEE 8TH JOINT INTERNATIONAL INFORMATION TECHNOLOGY AND ARTIFICIAL INTELLIGENCE CONFERENCE (ITAIC 2019), 2019, : 1211 - 1215
  • [39] Random time source protocol in wireless sensor networks and synchronization in industrial environments
    Wang, Fuqiang
    Zeng, Peng
    Yu, Haibin
    Xiao, Yang
    WIRELESS COMMUNICATIONS & MOBILE COMPUTING, 2013, 13 (08) : 798 - 808
  • [40] Advanced Self-Correcting Time Synchronization in Wireless Sensor Networks
    Liu, Bin
    Ren, Fengyuan
    Shen, Junyang
    Chen, Hongyang
    IEEE COMMUNICATIONS LETTERS, 2010, 14 (04) : 309 - 311
12345