Abstract
Satellite AIS data collected with AISSat-1 and AISSat-2 represent more than 5 years of maritime traffic data from the Arctic (north of 67°N). The number of ships observed per month shows large seasonal variations, as well as an annual growth. In August 2014, 2272 ships were observed, in December the number was 1563 ships. The annual growth rate in number of ships per month varies with month; between 113 ships/year for November and 201 ships/year for July. Some of the increase in the number using Class A equipment can be explained by the Control Regulation (EC 1224/2009) that has required AIS to be applied to fishing vessels above 15 m since 31 May 2014. To what extent the remaining increase in reporting vessels is due to higher activity or a higher number of ships using AIS is not studied. Considering geographic sectors of 45° longitude, the most trafficked sector is the 0–45°E sector where typically 75% of the ships in the Arctic are present. The 67.5°-longitude sector has the largest annual relative growth with of 46% or 695 ship-months in the same period. Looking at ship types, the peak numbers recorded in any month are 600 fishing vessels, 430 cargo ships, 120 tankers, 100 passenger ships, and 100 tugs. The seasonal variation most prominent is the fishing vessel peak in winter, while the remaining ship types peak in various summer months. Ship tracks for selected months illustrate the variation of the activity; August has a high number of tracks all around the Arctic as well as to the North Pole. As winter approaches the tracks fistly disappear in Alaska and Canada, then west of Greenland and lastly in the eastern part of the Northeast Passage in February. Activity is seen all year in the Norwegian Sea, the Barents Sea and the Kara Sea. In August 2014 the number of ships observed per day reached 1200 vessels. The number of position updates per ship per day was typically 13 and the largest daily time gap was typically less than 6.7 h. It should be noted that the variation over the Arctic region is large.
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Notes
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MMSI—Maritime Mobile Service Identity—A unique identifier for ships (and base stations) broadcasting on the AIS system.
References
European Commission Council regulation (EC) 1224/2009, the Control Regulation. (2009). Retrieved July 29, 2015, from http://eur-lex.europa.eu/legal-content/EN/TXT/?qid=1397742834654&uri=CELEX:32009R1224
International Maritime Organisation, International Convention for the Safety of Life at Sea “SOLAS”. (1974). Chapter V “Safety of Navigation”, Regulation 19. Although the original SOLAS Convention is from 1974, AIS was only introduced by amendment in December 2000.
International Organization for Standardization. (2015). Country Codes - ISO 3166. Retrieved July 29, 2015, from http://www.iso.org/iso/country_codes
International Telecommunication Union. (2010). Technical Characteristics for a Universal Shipborne Automatic Identification System using Time Division Multiple Access in the VHF Maritime Mobile Bad. ITU-R M.1371-4.
International Telecommunication Union. (2015). Table of maritime identification digits. Retrieved July 29, 2015, from http://www.itu.int/online/mms/glad/cga_mids.sh?lang=en. Updated 18 May 2015.
Morrison, F. A. (2014, September 25). Obtaining uncertainty measures on slope and intercept of a least squares fit with Excel’s LINEST. Houghton, MI: Department of Chemical Engineering, Michigan Technological University. Retrieved August 6, 2015, from http://www.chem.mtu.edu/~fmorriso/cm3215/UncertaintySlopeInterceptOfLeastSquaresFit.pdf
Norwegian Directorate of Fisheries. (2014). Fartøy, totalt og på fylkesnivå t.o.m. 2014. Retrieved August 6, 2015, from http://www.fiskeridir.no/Yrkesfiske/Statistikk-yrkesfiske/Fiskere-fartoey-og-tillatelser/Fartoey-i-merkeregisteret. Updated 9 April 2015.
Olsen, Ø., Skauen, A., & Helleren, Ø. (2014, January 23). Predicting near future vessel traffic conditions in the Arctic using data from AISSat-1. Arctic Frontiers. Retrieved August 11, 2015, from http://www.arcticfrontiers.com/downloads/arctic-frontiers-2014/conference-presentations-3/thursday-23-january-2014/part-iv-arctic-search-and-rescue-sar-1/548-04-oystein-olsen/file
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Eriksen, T., Olsen, Ø. (2018). Vessel Tracking Using Automatic Identification System Data in the Arctic. In: Hildebrand, L., Brigham, L., Johansson, T. (eds) Sustainable Shipping in a Changing Arctic. WMU Studies in Maritime Affairs, vol 7. Springer, Cham. https://doi.org/10.1007/978-3-319-78425-0_7
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