• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2019.11a
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• pp.246-248
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• 2019

우리나라의 "항만 및 어항 설계기준·해설"에서는 항로의 수심과 선석의 수심에 대한 기준을 정하고 있다. 다만 항로의 수심과 선석의 수심은 기준이 비슷하나 그 값이 다르다. 여기에 선석 수심에 대해서 홀수대비 선석수심비와 실제 우리나라 항만의 선석 수심을 비교하여 문제점을 제시하였다. 제시된 문제점을 토대로 향후 항해 및 계류안전성을 위한 수심 관련해서 종합적인 연구가 필요할 것으로 판단된다.

• The KIPS Transactions:PartB
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• v.11B no.1
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• pp.63-70
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• 2004

Port operation is largely divided into gate operation, yard operation and berth operation. Operation strategy and optimal resource allocation for three parts are important in the productivity of the port operation.. Especially the resource allocation planning in berth operation needs optimization, because it is directly connected with the processing time in shipping. Berth planning is not independent on recourse allocation but interrelated with yard stacking area allocation. Therefore, we design the optimized module of berth planning and give priority to interrelationship with yard space allocation, while existing studies design independent resource allocation in berth planning. We suggest constraints by mathematical method, and they are related to yard stacking area allocation with existing constraints. Then we look for solutions, use tabu search to optimize them, and design optimized the berth planning module. In the performance test of optimized module design of berth planning, we find that the berth planning with yard stacking area allocation takes less processing time than without yard stacking area allocation.

• Journal of Navigation and Port Research
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• v.44 no.6
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• pp.501-508
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• 2020

His paper looks more closely at the Republic of Korea's (ROK) Navy submarine berth-allocation strategies, with the study's results ultimately resulting in the proposition of an integer programming model. Current submarine berth-allocation planning problems include the need for more minimal berth-shifting and general support service failures, as a lack of efficient submarine berth-allocation often leads to submarines unable to receive the support service they need due to the inadequacy of their assigned berths. Currently, the ROK Navy allocates berths by only taking available reserve resources and the full-capacity limits of support services into account. This paper expands upon this strategy, and proposes a model which would allow for submarine berth allocation planning to also take submarine support service scheduling into account, allowing for more efficient and timely submarine servicing. This proposed model in turn minimizes berth shifting, support service failures, and allows for full coordination with the submarine support service request schedule. The construction of this model was carried out through data gathered on the ROK Navy's fleets and forces, allowing for a more nuanced analysis of existing issues with submarine berth-allocation planning.

• Journal of Korea Port Economic Association
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• v.32 no.2
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• pp.137-156
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• 2016

This study analyzes the optimal service levels of exclusive container terminals in terms of the optimal berth occupancy rate and the ships' waiting ratios, based on the number of berths. We develop a simulation model using berth throughput data from pier P, Busan New Port, a representative port in Korea, and apply the simulation results to different numbers of berths. In addition to the above results, we analyze the financial data and costs of delayed ships and delayed cargoes for the past three years from the viewpoints of the terminal operation company (TOC), shipping companies, and shippers to identify the optimal service level for berth occupancy rates that generate the highest net profit. The results show that the optimal levels in the container terminal are a 63.4% berth occupancy rate and 10.6% ship waiting ratio in berth 4,66.0% and 9.6% in berth 5, and 69.0% and 8.5% in berth 6. However, the results of the 2013 study by the Ministry of Maritime Affairs and Fisheries showed significantly different optimal service levels: a 57.1% berth occupancy rate and 7.4% ship waiting ratio in berth 4; 63.4% and 6.6% in berth 5; and 66.6% and 5.6% in berth 6. This suggests that optimal service level could change depending on when the analysis is performed. In other words, factors affecting the optimal service levels include exchange rates, revenue, cost per TEU, inventory cost per TEU, and the oil price. Thus, optimal service levels can never be fixed. Therefore, the optimal service levels for container terminals need to be able to change relatively quickly, depending on factors such as fluctuations in the economy, the oil price, and exchange rates.

• Proceedings of the Safety Management and Science Conference
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• 2000.05a
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• pp.351-360
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• 2000

선석배정문제는 항만운영 및 관리의 첫단계이며, 각 항만의 지리적, 자연적 특성에 따라 매우 독특하면서 복잡한 성향을 띠고 있다. 특히, 인천항은 그 지리적 특성상 갑문이라는 특수한 시스템과 많은 종류의 화물을 취급하기 때문에 만성적인 체선·체화 현상을 보이고 있으며 많은 물류비의 상승 등 경쟁력을 상실하고 있는 실정이다. 본 연구에서는 인천항의 갑문이용과 선석의 배정문제에 있어서 실제 인천항을 운영하는 전문가 집단의 지식을 규칙화하고, 실제자료를 토대로 갑문의 영향을 분석하여 보다 효율적으로 운영할 수 있는 시스템과 예기치 못한 상황에 대한 대처를 원활히 할 수 있는 선석운영 의사결정지원시스템을 구축하였다. 특히 본 연구에서는 기존 연구에서 고려하지 못한 갑문을 중심으로 교차제한사항과 선석운영의 효율을 높일 수 있는 이안을 예상한 입항선박을 고려하였으며, 더 나아가 사용자로 하여금 쉽고 빠르게 선석을 운용할 수 있도록 개선된 그래픽 사용자 인터페이스(Graphic user Interface)를 갖는 대화식 접근법(User interactive approach)체제의 실시간 선석운영 의사결정지원시스템을 개발하였다.

• Journal of the Korea Society for Simulation
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• v.17 no.3
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• pp.63-73
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• 2008

The aim of study is to analyze the berth occupancy rate according to the ship size. P Iron and steel company operate exclusive bulk terminal at P port and G port and the depth of water at berth are not so equal each other. And to reduce the sea transport cost between loading port and unloading port P and G, P company increases the number of large ship while ship scheduling. But it causes to increase the berth congestion at the specific water depth berth owing to the draught of large ship. At this point, usually ship waiting time starts to rise even at low levels of berth occupancy rate, and will rise more and more sharply at the level of full utilization. But it is not common at exclusive terminal like P port and G port. Bulk ships arrive at port according to the early planned arrival time and the coefficient of variation of ship arrival time is not so big. So queueing time at exclusive terminal does not rise sharply near 80-90 berth occupancy rate.

• Journal of the Korean Institute of Navigation
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• v.25 no.1
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• pp.23-32
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• 2001

This paper treats the berth planning problem which is encountered at public container terminals. The main issue of the berth planning problem is to decide how to allocate the berths to scheduled calling containerships of which the ETA' s are given beforehand. Three optimization models for the berth planning problem are proposed in the formulation of set problems. Some heuristic algorithms for generating the decision variables of the models are also devised by using the concept of the ship's waiting time and the modified berth occupancy rate. Computational experiments based on the data arising from the real public container terminal are also carried out and the results are reported to show that the proposed optimization models and the heuristic algorithms for generating the decision variables are applicable and useful for the berth planning problem at public container terminals.

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2010.10a
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• pp.55-56
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• 2010

본 연구는 컨테이너 터미널에서 선박의 선적작업을 위한 선석배정 및 크레인 할당문제를 동시에 결정하는 문제를 다루고 있다. 실제 컨테이너 터미널에서 고려하고 있는 다양한 형태의 제약을 고려하여 선석계획 및 크레인할당 문제에 대한 혼합정수모델을 제시하였다. 제안된 문제에 대해 좋은 해를 짧은 시간 안에 구하기 위하여 발견적 해법을 제시하였다.

• Proceedings of the Korean Society of Fisheries Technology Conference
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• 2000.05a
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• pp.177-178
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• 2000

파랑의 내습에 대하여 안전하고 공업용수가 풍부한 내만에 위치한 광양만은 급격한 경제개발의 요구에 따라 다양한 항만 및 산업단지의 조성을 위한 매립 및 준설사업이 활발하게 진행되고 있으며, 이에 따라 수산어장의 면적이 급격히 감소되고 있으며 아울러 수질이 악화일로에 있다(Lee et al., 1998). 해양수산부(1998)에 의하면 광양항을 동북아 중심항만의 기능으로서 창출하기 휘하여 1997년 현재 접안시설 규모는 총선석 52선석, 총연장 11,348m이지만, 광양항 개발에 따른 추가 시설계획 선석은 2006년에는 40선석, 2011년에는 51선석, 연장으로는 2006년까지 8,590m 그리고 2011년까지 12,100m로 계획되어있다.(중략)

• Journal of Navigation and Port Research
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• v.45 no.3
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• pp.102-108
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• 2021

The purpose of this study is to develop a proactive methodology for disruption due to uncertainty in vessels' arrival time. As worldwide imports and exports increased rapidly, the importance of berth planning in container terminals has increased accordingly. Since the berth plan determines the capacity of the container terminal, it aims to maximize efficiency by minimizing the time and space gap between the vessels. In reality, several uncertainties disrupt the initial berth plan resulting in economic losses. In this study, we propose a robust berth plan for preventing disruption.