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Satellite AIS – Developing Technology or Existing Capability?

Published online by Cambridge University Press:  12 March 2012

J. Carson-Jackson
J. Carson-Jackson*
Affiliation:
(ANCORS, University of Wollongong, Australia)
*
(E-mail: jacj366@uow.edu.au)
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Abstract

The Automatic Identification System (AIS) is an integral element in vessel tracking. But what about ‘Satellite AIS’? Is Satellite AIS a viable, current and effective tool to assist in vessel tracking? This paper will present the basic premise of reception of AIS by Low Earth Orbit (LEO) satellites. It will identify the technical aspects, present practical applications of Satellite AIS and look at implications for global tracking of vessels.

Keywords

Satellite AISVessel TrackingMaritime Domain Awareness
Type
Research Article
Information
The Journal of Navigation , Volume 65 , Issue 2 , April 2012 , pp. 303 - 321
Copyright
Copyright © The Royal Institute of Navigation 2012

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References

REFERENCES

AISSAT-1 Fact Sheet (2011). Accessed 2 June 2011. http://www.spacecentre.no/?module=Articles;action=Article.publicShow;ID=51389.Google Scholar
Cooper, T. (2010). Analysis of LRIT and AIS-via-Satellite trials data collected in January 2010. Australian Government Department of Defence, Defence Science and Technology Organisation, Executive Summary.Google Scholar
Effa, L. (2010). Presentation on US Marview® display tool. Proceedings of TEXAS IV Conference, USA.Google Scholar
Eide, M. S., Endrese, Ø., Brett, P O., Ervik, J L., Røang, K. (2007). Intelligent Ship Traffic Monitoring For Oil Spill Prevention: Risk Based Decision Support Building on AIS. Marine Pollution Bulletin, 54, 145148.CrossRefGoogle ScholarPubMed
Eriksen, T., Høye, G., Narheim, B. and Meland, B. J. (2006). Maritime Traffic Monitoring Using a Space-Based AIS Receiver. Acta Astronautica, 58, 537549.CrossRefGoogle Scholar
Høye, G. K., Eriksen, T., Meland, B. J. and Narheim, B. T. (2008). Space-Based AIS for Global Maritime Traffic Monitoring. Acta Astronautica, 62, 240245.CrossRefGoogle Scholar
IALA, (2004). International Association of Marine Aids to Navigation and Lighthouse Authorities, Operational Guideline for AIS. IALA Guideline 1028. Saint Germain en Laye, France.Google Scholar
IMO, (2008). International Maritime Organization, Resolution MSC.263(84) (2008), Revised Performance Standards and Functional Requirements for the Long-Range Identification and Tracking of Ships. London, United Kingdom.Google Scholar
IMO, (2011). International Maritime Organization, MSC.1 circulars related to technical aspects of LRIT (1259, 1294, latest revisions, detailing technical aspects of LRIT). London, United Kingdom.Google Scholar
IMO COMSAR, (2009). International Maritime Organization Sub-committee on Radio Communications and Search and Rescue, COMSAR14/Inf.11, 14th Session. London, United Kingdom.Google Scholar
IMO SOLAS, (2008). International Maritime Organisation Safety of Navigation, Circular SN/Circ.227 (2003/Corr. 1 2008), Guidelines for the Installation of a Shipborne Automatic Identification System (AIS). London, United Kingdom.Google Scholar
IMO SOLAS, (2009). International Maritime Organization Safety of Life at Sea Convention, Chapter V, Regulation 19.2.4 (AIS) and Regulation 19-1 (LRIT), Consolidated Version. London, United Kingdom.Google Scholar
ITU, (2010). International Telecommunications Union, ITU-R M.1371-4 (04/2010) Technical Characteristics for an Automatic Identification System Using Time-Division Multiple Access in the VHF Maritime Mobile Band. Geneva, Switzerland.Google Scholar
Knapp, S. (2007). The Econometrics of Maritime Safety. PhD Thesis, Erasmus Research Institute of Management (ERIM), Erasmus University of Rotterdam.Google Scholar
Lack, D. A., Cappa, C. D., Langridge, J., Bahreini, R., Buffaloes, G., Brock, C., Cerully, K., Coffman, D., Hayden, K., Holloway, J., Lerner, B., Massoli, P., Li, S-M., McLaren, R., Middlebrook, A. M., Moore, R., Nenes, A., Nuaaman, I., Onasch, T. B., Peischl, J., Perring, A., Quinn, P. K., Ryerson, T., Schwartz, J. P., Spackman, R., Wofsy, S. C., Worsnop, D., Xiang, B. and Williams, E. (2011). Impact Of Fuel Quality Regulation and Speed Reductions on Shipping Emissions: Implications for Climate and Air Quality. Environmental Science and Technology, 45, 90529060. American Chemical Society, USA.Google Scholar
Land and Sea Monitoring for Environment and Security [LIMES] (2011). Integrated Project, European Commission. http://www.fp6-limes.eu/index.php. Accessed 2 June 2011.Google Scholar
Maritime Security Services Project [MARISS] (2011). Global Monitoring for Environment Security (GMES). www.gmes.info. Accessed 2 June 2011.Google Scholar
Maritime Administration News Release [MARAD] (2008). MARAD 24-08.Google Scholar
Newcastle Port Corporation, (2010). Vessel Arrival System. New South Wales, Australia. http://www.newportcorp.com.au/client_images/912600.pdf. Accessed 18 October 2011.Google Scholar
Olesen, H. R. (2010). Ship Contribution to Air Pollution in Denmark – An Assessment Utilising AIS Data. Proceedings from the 13th Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Paris.Google Scholar
NASA Orbit Fact Sheet, (2011). http://gcmd.nasa.gov/User/suppguide/platforms/orbit.html. Accessed 2 June 2011.Google Scholar
Pitana, T. (2010) Estimation of Exhaust Emission of Marine Traffic Using Automatic Identification System Data (Case Study: Madura Strait Area, Indonesia). Proceedings of the Oceans 2010 IEEE Sydney Conference and Exhibition. Sydney, Australia.Google Scholar
Schwehr, K. D. and McGillivary, P. A. (2007). Marine Ship Automatic Identification System (AIS) for Enhanced Coastal Security Capabilities: An Oil Spill Tracking Application. Proceedings of the MTS/IEEE Oceans 2007 Conference, Vancouver, Canada.CrossRefGoogle Scholar
van der Tak, C. and Cotteleer., A. (2011). Emissions 2009: Netherlands Continental Shelf, Port Areas and OSPAR Region II. Report No. 24762-1-MSCN-rev.3.Google Scholar
Wahl, T. and Høye, G. K. (2003a). New Possible Roles of Small Satellites in Maritime Surveillance. Proceedings of Fourth IAA Symposium on Small Satellites for Earth Observation, Berlin.Google Scholar
Wahl, T. and Høye, G.K. (2003b). Acta Astronautica. Norwegian Defence Research Establishment [Forsvarets forskningsinstitutt (FFI)].Google Scholar