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REFERENCES

1 
Kopetz H., 2003, Time-triggered real-time computing, Annual Reviews in Control, Vol. 27, No. 1, pp. 3-13DOI
2 
Naimish T., SS Krishnamurthy B., 2017, Analysis of event-triggered and time-triggered architecture for a reliable embedded system, in International Conference on Computing and Networking Technology (ICCNT) DelhiDOI
3 
Kong Y., Wu J., Xie M., Yu Z., 2009, A new design for precision clock synchronization based on FPGA, in 16th IEEE-NPSS Real Time Conference Beijing ChinaDOI
4 
Kang L., July 2010, NIST, National Insitute of Standards and Technology, Vol. 9URL
5 
Shiying H., Liansheng H., Jun S., Ge G., Guanghong W., Xiaojiao C., Lili Z., 2018, Time Synchronization Network for EAST Poloidal Field Power Supply Control System Based on IEEE 1588, IEEE Transactions on Plasma Science, Vol. 47, No. 7, pp. 2680-2684DOI
6 
Shang W., Zhang B., Zhang B., Zhang F., Cong S., June 2019, Synchronization Control in the Cable Space for Cable-Driven Parallel Robots, in IEEE Transactions on Industrial Electronics, Vol. 66, No. 6, pp. 4544-4554DOI
7 
Shang W., Zhang B., Zhang B., Zhang F., Cong S., June. 2019, Synchronization Control in the Cable Space for Cable-Driven Parallel Robots, in IEEE Transactions on Industrial Electronics, Vol. 66, No. 6, pp. 4544-4554DOI
8 
Yin H., Fu P., Qiao J., Li Y., 2018, The implementation of IEEE 1588 clock synchronization protocol based on FPGA, in IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Houston TXDOI
9 
Jung Son K., Gyu Chang T., 2020, Distributed Nodes-Based Collaborative Sustaining of Precision Clock Synchronization Upon Master Clock Failure in IEEE 1588 System, Sensors, pp. 1-12DOI
10 
Qi M., Wang X., Yang Z., 2011, Design and implementation of IEEE1588 time synchronization messages timestamping based on FPGA, in 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies (DRPT) Weihai ChinaDOI
11 
Atul C., Sayyad N., Manoj J., Shashikant C., 2018, Implementation of FPGA-Based Network Synchronization Using IEEE 1588 Precision Time Protocol (PTP), in Recent Findings in Intelligent Computing Techniques. Advances in Intelligent Systems and Computing SingaporeDOI
12 
Holler R., Sauter T., Kero N., 2003, Embedded SynUTC and IEEE 1588 clock synchronization for industrial Ethernet, in IEEE Conference on Emerging Technologies and Factory Automation. Proceedings (Cat. No.03TH8696) Lisbon PortugalDOI
13 
Kohler D., Control and Communication Vienna Austria, A Practical Implementation of an IEEE1588 supporting Ethernet Switch, in IEEE International Symposium on Precision Clock Synchronization for MeasurementDOI
14 
Dong M., Qiu Z., Pan W., Chen C., Zhang J., Zhang D., 2018, The Design and Implementation of IEEE 1588v2 Clock Synchronization System by Generating Hardware Timestamps in MAC Layer, in International Conference on Computer Information and Telecommunication Systems (CITS) ColmarDOI
15 
Lin Y., Hao L., Dan T., 2011, Research and implementation in synchronized system of data acquisition based on IEEE 1588, in International Conference on Electronic Measurement & Instruments Chengdu ChinaDOI
16 
Xu W., Yang G., 2011, Implementation of the IEEE 1588 Precision Time based on FPGA, in International Conference on Electrical and Control Engineering Yichang ChinaDOI
17 
OpenCores, OpenCores.org [Accessed 10 November 2020]URL
18 
Bibo Y., Hardware Assisted IEEE 1588 IP Core, OpenCores.org, 11 April 2018. [Accessed 10 November 2020]URL