Analysis of Systems Ensuring the Acquisition of Real-Time Cartographic Navigation Information

Open access

Abstract

Electronic Chart Display and Information Systems (ECDIS), which are used on vessels and can replace paper charts, allow to obtain and display on electronic charts information from basic and additional data sources. For the certified use of ECDIS instead of paper charts, it is necessary to ensure constant updating of Electronic Navigation Chart (ENC) data provided to vessels for use. The known visual and satellite observation systems intended for cartographic information update are costly, have low accuracy and do not allow to quickly update navigational charts in real-time mode. The stand-alone use of remotely piloted aircraft (RPA) will make it possible not only to substantially reduce costs and increase the accuracy of monitoring, but also to provide information in real-time mode.

If the inline PDF is not rendering correctly, you can download the PDF file here.

  • [1] A. Vaivads J. Tereščenko V. Šestakovs “A Model of Interconnection Between Aircraft Equipment Failures and Aircraft “States” in Flight” Transport and Aerospace Engineering RTU vol. 6 no. 1 pp. 30–36 2018. https://doi.org/10.2478/tae-2018-0004

  • [2] International Maritime Organization. International Convention for the Safety of Life at Sea 1974 SOLAS amendments entering into force 1 July 2014. United Kingdom 2014.

  • [3] International Maritime Organization. Adoption of amendments to the international convention for the Safety of Life at Sea 1974 as amended IMO Resolution MSC.282(86) (adopted on 5 June 2009). United Kingdom 2009.

  • [4] Performance standards for electronic cart display and information systems (ECDIS). IMO Resolution A.817 (19). United Kingdom International Maritime Organization 1995.

  • [5] IHO Transfer Standard for Digital Hydrographic Data. IMO S-57 standard International Maritime Organization 2000.

  • [6] Specifications for Chart Content and Display Aspects Of ECDIS. IMO S-52 standard International Hydrographic Organization 2014.

  • [7] VestiRegion “Smeshhenie navigacionnogo buja stalo prichinoj posadki na mel’ teplohoda «Lotos».” [Online]. Available: http://vestiregion.ru/2015/06/01/smeshhenie-navigacionnogo-buya-stalo-prichinoj-posadki-na-mel-teploxoda-lotos/ [Accessed 23 October 2018].

  • [8] Maritime Administration and Marine Safety Law. The Saeima Latvia 2002. [Online]. Available: https://likumi.lv/ta/en/en/id/68491-maritime-administration-and-marine-safety-law [Accessed 20 May 2019].

  • [9] State Border Law of the Republic of Latvia. The Saeima Latvia 2009. [Online]. Available: https://likumi.lv/ta/id/57676-latvijas-republikas-valsts-robezas-likums [Accessed 20 May 2019].

  • [10] Pricelist of Hydrographic Service. Maritime Administration of Latvia. [Online]. Available: https://www.lja.lv/node/231 [Accessed 21 December 2015].

  • [11] DigitalGlobe “U.S. Department of Commerce Relaxes Resolution Restrictions DigitalGlobe Extends Lead in Image Quality.” [Online]. Available: https://web.archive.org/web/20140714215709/http://media.digitalglobe.com/press-releases/u-s-department-of-commerce-relaxes-resolution-restrictions-digitalglobe-extends--nyse-dgi-1122861/ [Accessed 23 October 2018].

  • [12] Spaceteam “SpejsTim predstavil novoe reshenie dlja monitoringa sredstv navigacionnogo oborudovanija na vnutrennih vodnyh putjah.” [Online]. Available: http://space-team.com/pressa/detail/new_fleet_managenent_system_for_waterway/ [Accessed 23 October 2018].

  • [13] McMurdo “McMurdo Oceania Marine Tracking Buoy System”. [Online]. Available: https://shopcdn.textalk.se/shop/35145/art15/24593215-731da0-Oceania_datasheet_A4_LR_FINAL_iss1.pdf [Accessed 22 May 2018].

  • [14] Discovery Telecom “Naviset Seapoint Iridium” user manual. [Online]. Available: https://www.discoverytelecom.eu/upload/iblock/480/seapoint_engl1.pdf [Accessed 23 October 2018].

  • [15] Discovery Telecom “Naviset Seapoint Iridium” tech specs. [Online]. Available: https://www.discoverytelecom.eu/catalog/5010.html [Accessed 23 October 2018].

  • [16] A. Urbahs and V. Žavtkēvičs “Remotely Piloted Aircraft route optimization when performing oil pollution monitoring of the sea aquatorium” Aviation vol. 21 no. 2 pp. 70–74 2018. https://doi.org/10.3846/16487788.2017.1344139

  • [17] A. Urbahs and I. Jonaite “Features of the use of unmanned aerial vehicles for agriculture applications” Aviation vol. 17 no. 4 2013 pp 170–175. https://doi.org/10.3846/16487788.2013.861224

  • [18] A. Urbahs and D. Goreļikovs “Applying remotely piloted aircraft systems for correcting electronic chart data and ensuring safe navigation” Proceedings of the International Conference Transport Means 2018 Lithuania KTU 2018.

Search
Journal information
Metrics
All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 79 79 14
PDF Downloads 62 62 3