Study on Aerospace Layering Time Synchronization Architecture and Time Synchronization Algorithm

Fei Jiang Huang; Xiao Chun Lu; Jun Yang; Qing Xiao Shan; Yong Bin Zhou

doi:10.4028/www.scientific.net/AMR.546-547.1614

Paper Titles

Study on the Measurement Method and Safety Design of Ultrasonic Cleaning Equipment
p.1568

Design of FPGA-Based Fault-Tolerant Embedded System
p.1574

Position Sensorless Detection of SRM Based on BP Neural Network
p.1580

Design and Realization of Embedded High-Speed Image Stabilization Device Base on FPGA+DSP
p.1586

Enhancement of Acoustic Field Aberration for Underwater Forward Detection with Experimental Verification
p.1592

Finite Element Method Used in the Calculation of Earth-Rock Dam Seepage Reflections
p.1598

Multi-Function Manipulator
p.1602

Study of NC Frequency Source Based on the GPS Atomic Clock System
p.1608

Study on Aerospace Layering Time Synchronization Architecture and Time Synchronization Algorithm
p.1614

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 546-547Study on Aerospace Layering Time Synchronization...

Study on Aerospace Layering Time Synchronization Architecture and Time Synchronization Algorithm

Abstract:

The rapid development of various kinds of aerospace application systems requires the appropriate high-accuracy time and frequency standard. This problem can be effectively solved by establishing suitable time and frequency standard in aerospace. Based on the establishment of aerospace satellite visual model, the simulation of satellite visual time on 3-layer constellation structure, including GEO satellite, IGSO satellites and MEO satellites, has been conducted. The visual features of this constellation have been gained. Combining with the major influencing factors of satellite clock correction error, aerospace time synchronization architecture on the basis of layering has been proposed. The time synchronization algorithm in line with this architecture has been researched. The results show that aerospace time frequency standard established based on this layering time synchronization architecture can meet the demand on high-accuracy time frequency of future aerospace application systems.

You might also be interested in these eBooks

Electrical Insulating Materials and Electrical Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 546-547)

Pages:

1614-1619

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.546-547.1614

Citation:

Cite this paper

Online since:

July 2012

Authors:

Fei Jiang Huang, Xiao Chun Lu, Jun Yang, Qing Xiao Shan, Yong Bin Zhou

Keywords:

Aerospace Communication, Layering Time Synchronization Architecture, Satellite Constellation, Time Synchronization Algorithm

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] X.H. Wang: Aerospace China, 1(2007), p.26.

Google Scholar

[2] K. Dai, and S.W. Lu: Microelectronics & Computer, Vol. 21(2004), p.69.

Google Scholar

[3] K. Kimura,K. Inagaki, andY. Karasawa: Proceedings of the International Society for Optical Engineering, Vol. 2699(1996), p.12.

Google Scholar

[4] F. Akyildiz, Eylem Ekici, and D. Bender: IEEE/ACM Transactions on Networking, Vol. 10(2002), p.411.

Google Scholar

[5] J.J. Bai, W. Peng, and Z.X. Lu: Computer Engineering & Science, Vol. 27(2006), p.86.

Google Scholar

[6] H.Y. Ding: Journal of System Simulation, Vol. 19(2007), p.713.

Google Scholar

[7] L. Wang, N.T. Zhang, Y. Wang, H.B. Chu, and H. Li: Chinese Space Science and Technology, 1(2004), p.26.

Google Scholar

[8] X.Q. Yi, M.Y. Feng, Y. Zhao, and X.S. Luo: Computer Science, Vol. 34(2007), pp.74-82.

Google Scholar

[9] G.X. Zhang, and H. Zhang: Satellite Mobile Communication System(Posts & Telecom Press, Beijing, China, 2001).

Google Scholar

[10] H.L. Shi , Y. Zhao: New Ideas and Methods of Error Design(Science Press, Beijing, China, 2007).

Google Scholar

[11] Q.F. Xu: Engineering of Surveying and Mapping, Vol. 10(2001), p.1.

Google Scholar

[12] F.J. Huang, X.C. Lu, J. Yang, Q.X. Shan, J.Y. Chen, and Y.B. Zhou: 2011 International Conference on Electronic & Mechanical Engineering and Information Technology (Harbin, China, Aug. 12-14, 2011), Vol. 4, p.1814.

Google Scholar

[13] C. Zhao, W.D. Ni: Progress in Physics, Vol. 28(2008), p.290.

Google Scholar

[14] F.J. Huang, X.C. Lu, H.T. Wu, and Y. J Bian: Geomatics and Information Science of Wuhan University, Vol. 35(2010), p.13.

Google Scholar