해양사고 방지를 위한 VTS 운영 효율성 제고에 관한 연구
DC Field | Value | Language |
---|---|---|
dc.contributor.author | 우계춘 | - |
dc.date.accessioned | 2017-02-22T07:22:52Z | - |
dc.date.available | 2017-02-22T07:22:52Z | - |
dc.date.issued | 2016 | - |
dc.date.submitted | 57098-06-10 | - |
dc.identifier.uri | http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002304510 | ko_KR |
dc.identifier.uri | http://repository.kmou.ac.kr/handle/2014.oak/10723 | - |
dc.description.abstract | In the globalization era in the 21st century, there has been an increasing amount of exchange in international society and also the quantity of goods transported and shipping quantity along with the density of transportation. Therefore, there has been an increasing risk on marine accident including collision or stranding of ships. Therefore, IMO started requesting to install and operate VTS at the seas with much amount of marine transportation or risk via SOLAS. Hereupon, as the importance of marine transportation has been increased for serving as a leading role of preventing marine accident and promoting marine logistics, following improvement plans have been explored while investigating the current status of Korea for reinforcing the function of marine transportation control system. First of all, it is required to prepare for localized technology of VTS to solve issues in the technological and expense-related issues of SW from foreign countries for efficient management and operation of VTS. Secondly, since e-Navigation connects ship users and those on the ground by using more advanced marine transportation technology over the ones in the past, it is possible to expect the expansion of an area to the coast in control area of VTS beyond the nation and also the feasibility of improvement in the field that was inefficiently controlled in the past due to limited communication method. By exchanging the scenes of VTS controllers with the ones of ship mates due to e-Navigation, mates are able to utilize many of the real-time information on the controller's scene, and controller is able to understand the situations of a ship to be controlled through the scene of mate more vividly. In addition, it is also anticipated to provide efficient and graphical communication tools that have not been realized with VHS voice communication in the past. Furthermore, all the information on the ground and ocean will be integrated in a consistent form, and this will be the improvement to rational VTS with much efficient that has not been expected in the past. According to the result of analysis on expenses and benefits of such new technology, the Ministry of Maritime Affairs and Fisheries and IMO recognized how it is urgently needed to adopt such technology if considering the casualties that cannot be calculated in values for marine accidents due to lack of this technology, severe risk of disasters according to characteristics of marine accidents, influence on the environment, and potential profits from efficient transportation management. However, quality and reliability of the software have been emphasized according to the increasing proportion of IT and software for the equipment in e-Navigation era. However, the importance of quality of software has been recognized among domestic companies, but personnel, time, and examination are not systematically applied to acquire the quality of software in the course of manufacturing the products. According to the survey, they turned out to fall behind for more than 5 years compared to the ones in foreign countries. Therefore, it is urgent to cultivate policies regarding this issue. In addition, since it becomes difficult to advance to the international market without this, it has been a huge obstacle in the promotion for domestic market. However, all the companies, government, and groups have not been successful in applying strategic approach. Therefore, a systematic and strategic approach is required to acquire the quality of software. | - |
dc.description.tableofcontents | List of Tables ⅳ List of Figures ⅴ Abstract ⅶ 제 1 장 서 론 1 1.1 연구배경 및 목적 1 1.2 연구방법 및 구성 2 제 2 장 우리나라 해상교통관제(VTS)의 현황조사 3 2.1 개요 3 2.1.1 VTS의 정의 3 2.1.2 VTS의 목적 4 2.1.3 VTS의 기능 4 2.1.4 VTS의 기본 구성요소 7 2.1.5 VTS의 주요 업무 9 2.1.6 항만VTS와 연안VTS 9 2.2 우리나라의 인원 및 시설, 장비현황 11 2.2.1 우리나라 해상교통관제센터의 인원 현황 11 2.2.2 해상교통관제시스템의 구성 시설 현황 13 2.2.3 해상교통관제시스템의 구성 장비 현황 14 2.3 우리나라 VTS 시설 및 장비의 발전 방안 15 2.3.1 해상교통관제시스템의 구성 장비 현황 15 2.3.2 우리나라 VTS 장비의 기술 개발 현황 16 제 3 장 VTS 관제범위 확대와 효율성 향상을 위한 E-NAVIGATION 관련 국내외기술동향 20 3.1 개요 20 3.1.1 e-Navigation의 의미 20 3.1.2 e-Navigation과 VTS 27 3.1.3 E-NAV 관련 단체와 핵심 기술 37 3.2 E-NAVIGATION 핵심기술에 대한 국제동향의 연구 48 3.2.1 해상통신기술에 관한 국제동향의 연구 49 3.2.2 선상에서의 정보통합기술에 관한 국제동향의 연구 55 3.2.3 정보통합과 서비스 제공을 위한 육상시스템구조 (CSSA,Common Shorebase System Architecture)에 관한 국제동향의 연구 58 3.2.4 측위시스템의 동향 62 3.3 대한민국 E-NAVIGATION 관련 현황과 나아가야할 방향 63 3.3.1 해양수산부 E-NAVIGATION 관련 로드맵 63 3.3.2 해양수산부 GICOMS 64 3.3.3 TTA(한국정보통신기술협회)의 대응 64 3.3.4 KRISO 기술개발 65 3.4 유럽동향에 대한 참고 66 3.5 앞으로 나아가야할 방향 66 3.6 비용편익 분석 70 3.6.1 e-Navigation 비용 분석 70 3.6.2 e-Navigation 비용 분석 계산법 74 3.6.3 e-Navigation으로부터 얻어질 효과 76 3.6.4 e-Navigation에 대한 비용과 효과로서의 결론 78 제 4 장 해양사고 분석과 VTS 운영효율성 제고 방안 80 4.1 준해양사고 분석 80 4.2 해양사고 분석 81 4.2.1 해양사고의 정의 81 4.2.2 해양사고의 종류 81 4.2.3 선박용도의 종류 82 4.2.4. 선박피해의 종류 83 4.2.5 해양사고 통계분석 83 4.3 VTS의 운영효율성 분석 93 4.3.1 항만 VTS의 효율성 93 4.3.2 연안 VTS의 효율성 95 4.3.3 군.경 R/S현황 및 효율성 96 4.4 VTS 운영효율성 제고를 통한 해양사고 방지방안 96 4.4.1 항만 VTS의 효율성 제고 방안 96 4.4.2 연안 VTS의 운영효율성을 통한 해양사고방지 방안 101 4.4.3 군.경찰 등 R/S 운영효율성을 통한 해양사고방지 방안 102 4.5 항만.연안VTS 및 군R/S 통합운영 효율성 제고 104 4.5.1 항만 및 연안VTS 현황 104 4.5.2 군 운영 R/S 현황 106 4.5.3 해양사고 방지를 위한 VTS 및 R/S통합운영 효율성 제고방안 107 제 5 장 결론 112 참고문헌 116 | - |
dc.language | kor | - |
dc.publisher | 한국해양대학교 대학원 | - |
dc.title | 해양사고 방지를 위한 VTS 운영 효율성 제고에 관한 연구 | - |
dc.type | Thesis | - |
dc.date.awarded | 2016-08 | - |
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