• 선박안전기술공단 소식
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• s.8
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• pp.9-9
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• 2006

• 선박안전기술공단 소식
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• s.13
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• pp.4-6
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• 2007

• 선박안전기술공단 소식
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• s.13
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• pp.9-9
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• 2007

• 선박안전기술공단 소식
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• s.16
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• pp.8-8
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• 2007

• Proceedings of KOSOMES biannual meeting
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• 2004.05b
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• pp.29-34
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• 2004

Ship is bring operated under a highly dynamic environments and many factors are related whit marine accident and those factors are interacting. An analysis on the marine accident is very important to prepare countermeasures which will ensure the safe navigation This paper aims to build a model of the rouses and improved policy for marine accident using SD(System Dynamics) approach and to measure a effect which is risk control countermeasures of marine accident The methodology of this paper is to perform the causes and improved policy for marine accident using Brainstorming method, and was to changed by quantitutive, qualitative factors and their feedback loops in casual map. This model was performed over 23 years($1997\~2020$) in a standard simulation model and 4 policy simulation models.

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2012.06a
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• pp.377-379
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• 2012

새천년대교 건설을 위하여 설치된 공사용 구조물, 작업용 선박 및 바지선 등 새로운 항행장애물 발생으로 인하여 항행여건이 더욱 열악하게 됨으로써 해양사고 발생 가능성이 증가하고 있어 이에 대한 안전대책을 수립 시행하여 해양사고를 예방하고자 한다.

• Proceedings of KOSOMES biannual meeting
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• 2006.11a
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• pp.299-301
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• 2006

It is very important to protect life, property at sea and marine environments from any pollution. The RFID when it applies a technique, is able to raise the stability of vessel as controling the mobile course and an entrance and exit of the crews as well as previously preventing accident from the vessel. The RFID technique which is applied, It show the effect which prevents an accident in advance, Currently it is used plentifully from physical distribution field and RFID KS domestic Standard $860MHz{\sim}960MHz$ band use the crew has the RFID tag and it will grasp incoming, leaving and movement.

• Journal of Korea Ship Safrty Technology Authority
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• s.32
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• pp.46-56
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• 2012

해양사고 예방 또는 해양사고 시 2차 피해 감소를 위한 관점에서 안전수역, 안전항구 및 최적 수리장소의 제공 또는 제공되는 장소까지 안전한 수로의 안내는 해양선진국으로 갖추어야 할 핵심 해사안전 서비스의 하나로 볼 수 있다. Erika호 해양사고와 같은 중대사고로 큰 손해를 겪은 국제사회는 피난처의 중요성을 깨닫고 여러 해를 거친 검토 끝에 피난처의 제공목적, 선장과 구조자의 책임지침 등을 담은 IMO Res. A.949(23) 및 A.950(23)과 같은 피난처 관련 지침을 제정하게 되었다. 이 지침을 바탕으로 덴마크, 미국, 캐나다, 남아프리카에서는 MAS 체제, 잠재적 피난처(PPOR, Potential Places of Refuge), 국가비상계획 포함 등의 방법으로 피난처를 지정하여 활용하고 있었다. 위의 요소들을 고려할 때, 우리나라 연안을 통항하는 선박들에 대한 최적의 피난처를 지정하기 위해서 연안해역 및 항만의 자연환경, 해상 및 기상조건, 과거 해양사고통계 및 분석자료, 항적도 및 교통량 등 해상교통환경의 평가를 위한 기초자료가 수집되어야 한다.

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2022.11a
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• pp.398-399
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• 2022

스마트선박 및 자율운항선박에 탑재될 선박 네트워크 보안장비에 대한 모의 공격 방법 및 정보통신망 보안진단 절차에 관하여 이해한다. 선박사이버보안 침해시험을 통하여 보안사고 예방을 통한 선박의 운항 안전성을 확보 하고자 합니다.

• Journal of the Korean Society of Marine Environment & Safety
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• v.24 no.4
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• pp.445-450
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• 2018

AIS is the most important navigation equipment for the identification of other ships, etc. However, the AIS overload problem has been raised recently due to an increase in AIS equipped vessels. The government is planning to introduce the wireless LTE network at 100 km offshore as part of the SMART-Navigation project. Continuous development and dissemination of the services available through such platforms will be necessary to achieve major goals such as marine accident prevention and environmental protection. In this study, we applied a WAVE communication system, which could be the basis for the development of such services. As a result, reliable data transmission was confirmed for a range of communication of approx. 5 miles, although the service was limited to 1 km in road traffic. Therefore, it is expected that WAVE communication technology will be used to prevent marine accidents through such efforts as collision avoidance and the transfer of marine safety information between ships.