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AIS Database Powered by GIS Technology for Maritime Safety and Security

Published online by Cambridge University Press:  02 October 2008

Ziqiang Ou  and
Jianjun Zhu
Ziqiang Ou*
Affiliation:
(Central South University, P.R. China)
Jianjun Zhu
Affiliation:
(Central South University, P.R. China)
*
(Email: ouz@rogers.com)
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Abstract

The Automatic Identification System (AIS) is an efficient tool to exchange positioning data among participating naval units and land control centres. It was developed primarily as an advanced tool for assistance to sailors during navigation and for the safety of the life at sea. Maritime security has become a major concern for all coastal nations, especially after September 11, 2001. The fundamental requirement is maritime domain awareness via identification, tracking and monitoring of vessels within their waters and this is exactly what an AIS could bring. This paper will be focused on how the AIS-derived information could be used for coastal security, maritime traffic management, vessel tracking and monitoring with the help of GIS technology. The AIS data used in this paper was collected by the Canadian national aerial surveillance program.

Keywords

Automatic Identification SystemGeographic Information SystemMarine SecurityAerial Surveillance
Type
Research Article
Information
The Journal of Navigation , Volume 61 , Issue 4 , October 2008 , pp. 655 - 665
Copyright
Copyright © The Royal Institute of Navigation 2008

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References

REFERENCES

Chang, S.J., 2003. Vessel Identification and Monitoring Systems for Maritime Security, Proceedings of IEEE 37th Annual 2003 International Carnahan Conference on Security Technology, Oct. 14–16, 2003, p.6670.Google Scholar
Gauthier, M.F., Weir, L., Ou, Z., Arkett, M. and DeAbreu, R., (2007) Integrated Satellite Tracking of Pollution – A New Operational Program, International Geoscience and Remote Sensing Symposium (IGARSS), July 2007, Barcelona, Spain.CrossRefGoogle Scholar
Harati-Mokhtari, A., Wall, A., Brooks, P., and Wang, J., 2007. Automatic Identification System (AIS): Data Reliability and Human Error Implications, The Journal of Navigation, 60, 373389.CrossRefGoogle Scholar
International Maritime Organisation (IMO), 2001. Guidelines for the Onboard Operational Use of Shipborne Automatic Identification Systems (AIS), as Amended by ITU-1371. Resolution A.917(22). London.Google Scholar
International Maritime Organisation (IMO), 2002. Guidelines for the Onboard Operational Use of Shipborne Automatic Identification Systems (AIS), Assembly 22nd Session, Resolution 917.Google Scholar
International Maritime Organisation (IMO), 2003. Guidelines for the Installation of a Ship-borne Automatic Identification System (AIS), International Maritime Organization, SN/Circ. 227.Google Scholar
Krajewski, C., 2002. River Information Services (RIS), Result of PIANC Working Group InCom 24. 30th PIANC Congress Sydney 2002Google Scholar
Oltmann, J-H., Bober, S., 1999. The Shipborne Automatic Identification System (AIS) – its idea, its technology and its applications in maritime and inland shipping. ISIS Conference 1999Google Scholar
Sandler, M., Gern, T., Zimmermann, R., 2003. Integration of Inland ECDIS, Radar and AIS: Application Scenarios for AIS-Transponders in Inland Navigation and Waterway Management. NAVIGATION 9/2003Google Scholar