Citation: | HUAI Shuaiheng, ZHANG Shufang, WANG Xiaoye, et al., “A Novel Adaptive Noise Resistance Method Used for AIS Real-Time Signal Detection,” Chinese Journal of Electronics, vol. 29, no. 2, pp. 327-336, 2020, doi: 10.1049/cje.2020.01.011 |
G. T. Becker, S. Lo, D. De Lorenzo, D. Qiu, C. Paar and P. Enge, “Efficient authentication mechanisms for navigation system-a radionavigation case study,” The 22nd International Technical Meeting of the Satellite Division of the Institute of Navigation, Savannah, USA, pp.2209-2220, 2009.
|
D. Whelan, P. Enge and G. Gutt, “Robust time transfer from space to backup GPS”, The 23rd International Technical Meeting of the Satellite Division of the Institute of Navigation, Portland, USA, pp.907-914, 2010.
|
G. H. Kim, S. H. Jeon, C. W. Kim, D. W. Han, C. D. Kee and S. J. Choi, “A combined numerical-emperical orbit propagation algorithm for satellite tracking and back navigation system”, The Institute of Navigation International Technical Meeting, Newport, pp.812-819, 2012.
|
Q. Hu, S. F. Zhang and J. B. Zhang, “Public wireless mobile IP networkbased AIS technique in E-Navigation”, Journal of Dalian Maritime University, Vol.3, pp.46-50, 2008.
|
W. Tycholiz and J. Jakacki, “Mesh-based internet on the Baltic sea for improving e-navigation services. A case study”, The International Conference on Its Telecommunications IEEE, Warsaw, Poland, 2017.
|
The International Association of Marine Aids to Navigation and Lighthouse Authorities, R-150 DGNSS Service Provision Upgrades and Future Uses, 2016-12-16.
|
The International Association of Marine Aids to Navigation and Lighthouse Authorities, IALA World Wide Radio Navigation Plan, 2012-12-1.
|
JH. Oltmann, ACCSEAS e-Navigation Architecture Report, 2015-5-15.
|
The International Maritime Organization, Development of an e-navigation strategy implementation plan, 2014-7-4.
|
The International Maritime Organization, IMO position on WRC-12 agenda items concerning matters relating to maritime services, 2011-3-11.
|
S. Morosi, A. Maritinelli and E. Del Re, “Peer-to-peer cooperation for GPS positioning”, International Journal of Satellite Communications and Networking, DOI:10.1002/sat.1186, 2016.
|
J. Owen, “GNSS vulnerability to interference and solutions”, The IEE Seminar on New Developments and Opportunities in Global Navigation Satellite Systems, Portsmouth, UK, 2005.
|
P. Papadimitratos and A. Jovanovic, “Protection and fundamental vulnerability of GNSS”, IWSSC 2008, Toulouse, France, pp.167-171, 2008.
|
Grejner-Brzezinska D. A, Toth C. K, Moore T, et al., “Multisensor navigation systems: a remedy for GNSS vulnerabilities?”, Proceedings of the IEEE, Vol.104, No.6, pp.1339-1353, 2016.
|
M. Ma, “Is eLoran the backup of future satellite navigation?”, China Maritime Safety, Vol.11, pp.54-56, 2015.
|
Q. Z. Nie, “Navigation safety and eLoran”, Port Engineering Technology, Vol.54, No.6, 2017.
|
S. H. Huai and S. F. Zhang, “A novel sparse representation algorithm for AIS real-time signals”, EURASIP Journal on Wireless Communications and Networking, DOI: doi.org/10.1186/s13638-018-1244-9, 2018.
|
S. H. Huai and S. F. Zhang, “Research on pursuit algorithms for sparse representation of AIS real-time signal”, Journal of Dalian University of Technology, Vol.58, No.5, pp.533-538, 2018.
|
Single-Chip eLoran Receiver, Small Business Innovation Research Program Federal Funding Opportunity, National Institute of Standards and Technology: Gaithersburg, ML, USA, pp.72-74, 2016.
|
2005, International Convention for Safety of Life at Sea, pp.471-472.
|
Y. Jiang, Q. Hu, K. Zheng and D. K. Yang, “Map projection positioning method in ranging-mode of automatic identification system”, ICIC Express Letter, Vol.10, pp.1093-1100, 2016.
|
G. Johnson, P. Swaszek, J. Alberding, M. Hoppe and J. H. Oltmann, “The feasibility of r-mode to meet resilient PNT requirements for enavigation”, The 27th International Technical Meeting of the Satellite Division of the Institute of Navigation, Tampa, USA, pp.3076-3100, 2014.
|
S. H. Huai, S. F. Zhang, J. B. Zhang and K. Y. Huang, “Holographic detection of AIS real-time signals based on sparse representation”, EURASIP Journal on Wireless Communications and Networking, DOI: doi.org/10.1186/s13638-019-1404-6, 2019.
|
X. Y. Wang, S. F. Zhang and X. W. Sun, “Research on the additional secondary phase factor for automatic identification system signals transmitted over a rough sea surface”, Sensors, Vol.18, No.617, 2018.
|
Y. Jiang, J. N. Wu and S.F.Zhang, “An improved positioning method for two base stations in AIS”, Sensors, Vol.18, No.991, 2018.
|
J. B. Zhang, S. F. Zhang and J. P. Wang, “Pseudorange measurement method based on AIS signals”, Sensors, Vol.17, No.1183, 2017.
|
Q.Hu, Y.Jiang and S.F.Zhang, “Development of an automatic identification system autonomous positioning system”, Sensors, Vol.15, pp.28574-28591, 2015.
|
S. Q. Zhang, S. F. Zhang and Y.Wang, “Biorthogonal Wavelet Construction Using Homotopy Method”, Chinese Journal of Electronics, Vol.24, No.4, pp.772-775, 2015.
|
X. Y. Wang, S. F. Zhang and X. W. Sun, “The additional secondary phase correction system for AIS signals”, Sensors, Vol.17, No.736, 2017.
|
X. Y. Wang and S. F. Zhang, “The research of prediction algorithm for the secondary factor of AIS signal”, Acta Electronica Sinica, Vol.44, No.9, pp.2121-2125, 2016. (in Chinese)
|
X. Y. Wang and S. F. Zhang, “Evaluation of multipath signal loss for AIS signals transmitted on the sea surface”, Ocean Engineering, Vol.146, pp.9-20, 2017.
|
Y. Jiang, S. F. Zhang and D. K. Yang, “A novel position estimation method based on displacement correction in AIS”, Sensors, Vol.14, pp.17376-17389, 2014.
|
Y. H. Wen, Antenna and radio wave propagation theory, Tsinghua University Press & Beijing Jiaotong University Press, Beijing, China, pp.161-165, 2005.
|