IEEE 1588 for Clock Synchronization in Industrial IoT and Related Applications: A Review on Contributing Technologies, Protocols and Enhancement Methodologies

Zeba Idrees,Shahid Latif,Zhuo Zou,Yang Sun,Li Gong,Jose Granados,Lirong Zheng

doi:10.1109/access.2020.3013669

Zeba Idrees, Shahid Latif + Show 5 more

Open Access

https://doi.org/10.1109/access.2020.3013669

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Abstract

Precise time synchronization becomes a vital constituent due to the rigorous needs of several time-sensitive applications. The clock synchronization protocol is one of the fundamental factors that can define the quality of communication. Our study starts with a brief discussion on the application domain of precise time synchronization and comes with an in-depth study of the synchronization with the main focus on the IEEE 1588 Precision Time Protocol (PTP). We have compared the well-known synchronization techniques and conclude that the PTP is the most appropriate answer to robust clock synchronization though challenges are there that requires thoughtful efforts and modification in the current version. The working mechanism and main components of the PTP network are discussed. We have established a testbench using commercially available devices and development boards to evaluate the PTP performance under different configurations. Major sources of synchronization error and other aspects contributing to precision are examined. This paper discussed numerous approaches that could enhance the performance of the PTP protocol. Structures for PTP based wireless clock synchronization required by advanced applications has also been discussed. In the end, paper focuses on the main industrial application areas in which PTP plays an important role, including WLAN, optical data centers, Smart grid, IEC 61850, etc. We conclude the paper by identifying the future trends and research directions for PTP based clock synchronization.

Highlights

Time-dependent applications have become essential as technologies like industrial automation, robotics, and Internet of Things (IoT) have grown by many folds [1]
Idrees et al.: IEEE 1588 for Clock Synchronization in Industrial IoT and Related Applications of the event named as time stamping [5]
They proposed an analytical model and the results show that the reduction in convergence time of wireless precision time protocol (WPTP) and the number of packets to transmit does not affect the synchronization accuracy

Summary

INTRODUCTION

Time-dependent applications have become essential as technologies like industrial automation, robotics, and Internet of Things (IoT) have grown by many folds [1]. Z. Idrees et al.: IEEE 1588 for Clock Synchronization in Industrial IoT and Related Applications of the event named as time stamping [5]. PTP is one of the conceivable solutions for highly precise clock synchronization. This paper conducted a comprehensive study and analysis of IEEE 1588 PTP based synchronization solutions for IoT and industrial applications. Despite of the development that is made with these practices, highly precise clock synchronization is still an open issue, especially in wireless network communication.

BACKGROUND

WIRELESS PTP

SUMMARY OF THE LITERATURE ON PTP BASED SYNCHRONIZATION

VIII. CONCLUSION AND FUTURE NEEDS