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http://dx.doi.org/10.12673/jant.2021.25.6.433

Realization on the Integrated System of Navigation Communication and Fish Finder for Safety Operation of Fishing Vessel  

In-suk Kang (Samyung Enc Co. Ltd.)
In-ung Ju (Daeyang Co. Ltd.)
Jeong-yeon Kim (Fishing Vessel Safety & Operation Div., National Federation of Fisheries Cooperatives)
Jo-cheon Choi (Dep. of Marine Computer Engineering, National Mokpo Maritime Univ.)
Publication Information
Journal of Advanced Navigation Technology / v.25, no.6, 2021 , pp. 433-440 More about this Journal
Abstract
The problem of maritime accidents due to the carelessness of fishing vessels, which is affected by the aging of fishing vessel operators. And there is navigation, communication and fish finder that is installed inside the narrow bridge of a fishing vessel. Therefore these system are monitors as many as of each terminal, which is bad influence on obscuring view of front sea from a fishing vessel bridge. In addition a large problem, it is occurs to reduce of the information recognition ability due to the confusion, which is can not check the display information each of screen equipments. Therefore, there has been demand to simply integrated the equipment, and it has wanted the integrated support system of these equipment. The display must be provided on a fishing vessels such as electronic charts, communications equipments and fish detection into one case. In this paper, the integrated system will be installed the GPS plotter, AIS, VHF-DSC, V-pass, fish finder and power supply in the narrow wheelhouse on a fishing vessel, which is configured in one case and operated by multi function display (MFD). The MFD is integrated to simplify for several multi terminals and provided necessary information on a single screen. This integration fishery support system will has improved in sea safety operation and fishery environment of fishing vessels by this implementation.
Keywords
GPS plotter; AIS; VHF-DSC; V-pass; Fish finder; MFD;
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  • Reference
1 Korea Maritime Safety Tribunal, "Statistics of marine accidents", [Internet]. Available: https://www.kmst.go.kr/eng/com/selectHtmlPage.do?htmlName=m4_vesseltype, 2021.
2 International Standard IEC61162-2, Maritime navigation and radio communication equipment and systems-Digital interfaces, Part 2:Single talker and multiple listeners, high-speed transmission, Sep. 1998.
3 J.-W. Park, Y.-K. Lim, C. H. Yun, O.-S. Kim, J.-W. Lee, and H. N. Chung, "The current situation of the digital interface international standards and an analysis of integration condition of ships," Journal of the Society of Naval Architects of Korea, Vol. 48, No. 6, pp. 490-500, Dec. 2011.   DOI
4 General Aspects of Digital Transmission System, " Coding of speech at 8 kbit/s using conjugate-structure algebraiccode-excited linear prediction (CS-ACELP)," Recommendation ITU-T G.729, Mar. 1996.
5 M Series, "Technical characteristics for an automatic identification system using time division multiple access in the VHF maritime mobile frequency band," Recommendation ITU-R M.1371-5, Feb. 2014.
6 J. E. Ehrenberg, "Evaluation of the dual beam acoustic fish target strength measurement method," Journal of the Fisheries Research Board of Canada, Aug. 2015.
7 Microchip, EVB-KSZ9897 gigabit ethernet switch evaluation board user's guide, Microchip Technology Inc., 2017.
8 RK3288 solutions, [Internet]. Available: http://www.rockchips.com/a/en/products /RK32_Series/2014/0504/484.html