• 수산해양교육연구
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• 제21권4호
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• pp.586-591
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• 2009

The marine traffic accidents go on increasing owing to the increment of marine traffic capacity, and the solutions about these matters are vigorously considering by many researchers. When the watch officer navigates to the narrow channel, bend or an area obscured by an intervening obstruction and around the harbour limit he must follow the planned track. The watch officer can safely navigate along the course laid down only when he alters his course in advance before the new course distance earlier than the course alternation point. If we call this point to be changed in advance a turning bearing, the turning bearing is decided according to the direction and the range from the clearing objects. The turning bearing helps the watch officer to determine whether the ship is at wheel-over position or not. The author in this paper suggest how to make and use a curve graph which is decided according to the direction and the distance from the clearing objects. If the watch officer utilize this curve graph he can judge swiftly and precisely whether his ship is at the wheel - over position or not.

• 수산해양교육연구
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• 제29권3호
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• pp.767-777
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• 2017

The purpose of this paper is to develope a training model and to make a syllabus for electro-technical officers(ETOs) on ship. In order to complete the purpose, firstly we study on qualification for electro-technical officers and also examine the foreign, domestic cases. Secondly, through the STCW convention and the IMO Model Course 7.08, we have compared the standards of competence for officers in charge of an engineering watch and ETO, and analyze the additional standards of competence to acquire the ETO's licenses. Finally, based on the results of this, we will suggest the development of a training model that officers in charge of an engineering watch must complete in order to obtain an ETO's license. This paper is expected to be useful in the educational institution preparing for training course.

• 해양환경안전학회:학술대회논문집
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• 해양환경안전학회 2018년도 공동국제학술발표회
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• pp.68-68
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• 2018

• 한국항해항만학회지
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• 제38권6호
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• pp.645-653
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• 2014

A Bridge Navigational Watch Alarm System (hereafter 'BNWAS') is to monitor and detect if an officer of watch(hereafter 'OOW') keeps a sharp lookout on the bridge. The careless lookout of an OOW could lead to marine accidents. For this reason on June 5th, 2009, IMO decided that a ship is equipped with a BNWAS. However, an existing BNWAS gives the OOW a lot of inconvenience and stress in its operation. It requires that the OOW should press reset buttons to confirm their alert watch on the bridge at every three to twelve minute. Many OOWs have complained that at some circumstances they cannot focus on their bridge activities including watch-keeping due to a lots of resetting inputs of BNWAS. Accordingly, IMO has allowed the use of a motion sensor as a resetting device. The motion sensor detects the movements of human body on the bridge and subsequently sends reset signals directly to BNWAS automatically. As a result, OOWs can work uninterrupted. However, some of classification societies and flag authorities have a slightly different stance on the use of motion sensor as a resetting method for BNWAS. The reason is that the motion sensor may trigger false reset signals caused by the motion of objects on the bridge, especially a slight movement such as toss and turn of human body which can extend the period of careless watch. As a basic study to minimize the false reset signals, this paper proposes a simple configuration of BNWAS, which consists of only three motion sensors associated with 'AND' and 'OR' logic gates. Additionally, several considerations are also proposed for the implementation of motion sensors. This study found that the proposed configuration which consists of three motion sensors is better than an existing one by reducing false reset signals caused by a slight movement of human body in one's sleep. The proposed configuration in this paper filters false reset signals and is simple to be implemented on existing vessels. In addition, it can be easily installed just by a basic electrical knowledge.

• 한국항해항만학회:학술대회논문집
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• 한국항해항만학회 2011년도 추계학술대회
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• pp.13-15
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• 2011

This report represents analysis of the maritime casualty in terms of Bridge Resource Management. We evaluate the attitudes and knowledge of bridge officer regarding human factors issues that have been identified as causal to mishaps in high-risk situations. So to reduce human errors our goal is to establish effective officer resource management (ORM) program which is based on all subjects for cadets in IMO model course. In harmonization with STCW(The International Convention on Standards of training, Certification and Watch-keeping for Seafarers), as the result, the curriculumss in the maritime education institutions is surveyed to improve our education system and then reduce the human errors by mariners at sea.

• 한국항해항만학회:학술대회논문집
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• 한국항해항만학회 2012년도 추계학술대회
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• pp.49-50
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• 2012

본 연구에서는 STCW 국제협약의 해기 관련 자격증명에 관한 최저요건을 살펴보고 국내 해기교육 및 면허제도, 해군장교능력평가(PQS) 제도를 비교분석하여 해군 PQS 제도의 발전방안을 모색하여 보았다. 해군 PQS 제도의 발전사항으로 평가범위의 조정, 평가내용의 확대와 유형의 다양화, 장교 출신별 해기 관련 교육의 차별화 등의 방안을 제시하였다.

• 해양환경안전학회지
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• 제12권4호
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• pp.307-312
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• 2006

최근 들어 선박직원법상 승무기준의 개정의 필요성에 대한 강력한 주장이 수산업계에서 제기되었다. 수산업계에서는 승무기준완화 입장을 유지하는 반면 노동계와 해기사협회 및 통신사협회는 현행유지 내지 기준의 강화를 주장하였다. 본 연구는 선박안전운항을 확보하기 위하여 선박직원법상 소형선박조종사 승무기준의 타당성과 그 개선 방안을 연구 제시하고자 한다.

• 수산해양교육연구
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• 제21권1호
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• pp.52-58
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• 2009

항행중에 두 선박이 접근하여 충돌의 위험이 있을 경우 안전한계접근거리 즉 피항을 시작해야할 시점에 대해서 실선시험을 통한 자료에 근거를 하여 조종성지수를 산출하고 안전한계접근거리를 계산하여 제공함으로써 항행중에 선박의 조선자들이 상대선박과 피항동작을 취해야 할 경우에 경험이나 감각에만 의존함으로써 생기는 착오를 방지하고자 하였다. 앞의 논의 과정을 요약하면 다음과 같다. 1. 조우각도가 같을 경우에도 타각을 10도사용하면 타각을 30도 사용할 때보다도 안전한계접근거리는 최소 1.3배에서 최대 1.8배정도 더 증가하므로 해상상태, 자선의 적하상태를 고려해서 대타각의 전타가 어려울 경우 특히 피항개시 시점을 충분히 주의해야한다. 2. 선박의 크기에 상관없이 조우각도가 90도 부근에서 충돌의 위험이 가장 커서 안전한계접근거리는 소형선(300톤급)에서는 자선 길이의 5.0배에서, 대형선(100,000톤급)에서는 10.7배로서 대형선일수록 피항개시 시기를 놓치지 않도록 해야 한다. 3. 조우각도가 적을 경우가 클 경우보다도 안전한계접근거리가 훨씬 크게 나타났고 대형선에서 더욱 두드러지게 나타났다.

• 해양환경안전학회지
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• 제24권3호
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• pp.346-351
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• 2018

The proportion of collision in the total marine accidents is high. The main causes of collisions are navigation rule violation, safety speed violation, neglected watch-keeping and improper collision avoidance action. There are two main ways of avoiding collision situations during maritime navigation: the method of altering course and reducing ship's speed. The purpose of this study is to analyze the result of the collision avoidance action of the reserve officer in case of encountering a multiple number of ships using the ship handling simulator. Full-mission ship handling simulator was used to experiment the situation scenarios that encountered multiple ships. After the experiment, the questionnaire about the experiment was investigated. A total of 50 subjects were participated in the experiment. Experimental results showed that the number of the experimenters who used the engine was 11 and the number of the experimenters who did not use the engine was 39. In the case of using the engine, there were 0 collision accident, 1 grounding accident, and 10 no accidents. However, when the engine was not used, there were 28 collision accidents, 2 grounding accidents, and 9 no accidents. The causes of these results can be found in the survey results. 74 % of the non used engine participants said they were hesitate to use the engine. As can be seen from these results, the reserve officer are hesitant to use the engine and need a way to get correct of it. Maritime course subject can emphasize the importance of using ship's engines and case study also can be it. So, It is considered that various case study scenario will need to developed by various tools in the future.

• 수산해양기술연구
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• 제49권2호
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• pp.136-143
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• 2013

The analysis of the written verdicts in recent five years was conducted to obtain preventive measures of collision between fishing vessel and non fishing vessel. As a result, a collision much happened in offshore trap for fishing vessel and below 5,000 tons of small and medium class for non fishing vessel. A person involved in a marine accident occupied 68% in sixth class deck officer and small boat operator for fishing vessel and 29% in third class deck officer for non fishing vessel. 90% of the collision happened in a underway by operating state and 84% in sight of one another by visibility state. The systemic radar training was required since 47% of the collisions was occurred on the condition of radar operation in fishing vessel. The main cause of poor lookout was a intensive fishing and poor lookout on movement by radar for fishing vessel and one man watch system and no recognition of one another by radar for non fishing vessel. This result is expected to contribute for the decrease of collision.