• International Journal of Naval Architecture and Ocean Engineering
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• 제3권1호
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• pp.86-94
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• 2011

This paper compares frequency domain and time domain predictions from the ShipMo3D ship motion library with observed motions from model tests and sea trials. ShipMo3D evaluates hull radiation and diffraction forces using the frequency domain Green function for zero forward speed, which is a suitable approach for ships travelling at moderate speed (e.g., Froude numbers up to 0.4). Numerical predictions give generally good agreement with experiments. Frequency domain and linear time domain predictions are almost identical. Evaluation of nonlinear buoyancy and incident wave forces using the instantaneous wetted hull surface gives no improvement in numerical predictions. Consistent prediction of roll motions remains a challenge for seakeeping codes due to the associated viscous effects.

• 한국해양공학회:학술대회논문집
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• 한국해양공학회 2001년도 추계학술대회 논문집
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• pp.164-168
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• 2001

The motion of a ship advancing in regular waves is analyzed in the time-domain using the convolution integral of the radiation forces. The memory effect functions and infinite frequency added masses are obtained from the solution of the three dimensional improved Green integral equation in the frequency domain by making use of the Fourier transformation. The ship motions in regular waves have been calculated by both the time and frequency domain methods. It has been shown that they agree very well with each other. The present time-domain method can be used to predict the time histories of unsteady motions in irregular waves. It can also be used to calculate the hydrostatic and Froude-Krylov forces over the instantaneous wetted surface of the ship hull to predict large ship motions, in a practical sense, advancing in large amplitude waves.

• 해양환경안전학회지
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• 제26권6호
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• pp.594-600
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• 2020

선박과 물체의 충돌위험을 파악하는 것은 항해안전에 중요하다. 본 연구의 목적은 선박이 방파제 사이를 통과할 때 선박 도메인이 방파제에 의해서 침범당하는 현상을 분석하는 것이다. 연구방법은 먼저, 방파제가 주어진 조건으로 설계된 선박 도메인을 침범하는 영역을 평가하기 위한 방법을 제안하였다. 그런 후, 부산항 방파제 부근을 항해하는 선박들의 AIS(Automatic Identification System)로부터 실험 데이터를 획득하고 처리하여 방파제 사이에서 형성될 수 있는 선박 도메인을 구축하였다. 이 때 선박 도메인은 Fujii의 Domain을 이용해 구축하였다. 마지막으로, 구축한 선박 도메인이 방파제에 의해서 침범당하는 현상을 분석하였다. 실험결과, 방파제에 의해서 침범당하는 선박 도메인이 확인되었다.

• 대한조선학회지
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• 제24권4호
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• pp.9-18
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• 1987

The hydrodynamic radiation forces acting on a ship travelling in waves have been conventionally treated by strip theories or by direct three dimensional approaches, most of which have been formulated in frequency domain. If the forward speed of a ship varies with time, or if its path is not a straight line, conventional frequency domain analysis can no more be used, and for these cases time domain analysis may be used. In this paper, formulations are made in time domain with applications to some problems the results of which are known in frequency domain. And the results of both domains are compared to show the characteristics and validity of time domain solutions. The radiation forces acting on a three dimensional body within the framework of a linear theory. If the linearity of entire system is assumed, radiation forces due to arbitrary ship motions can be expressed by the convolution integral of the arbitrary motion velocity and the so called impulse response function. Numerical calculations are done for some bodies of simple shapes and Series-60[$C_B=0.7$] ship model. For all cases, integral equation techniques with transient Green's function are used, and velocity or acceleration potentials are obtained as the solution of the integral equations. In liner systems, time domain solutions are related with frequency domain solutions by Fourier transform. Therefore time domain solutions are Fourier transformed by suitable relations and the results are compared with various frequency domain solutions, which show good agreements.

• 한국CDE학회논문집
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• 제10권3호
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• pp.217-223
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• 2005

Tight integration between design and analysis processes and the data representation in the ship design application domain have been studied in this paper. Multi-Representation Architecture for design and analysis integration, proposed at Georgia Institute of Technology, has been carefully investigated for the application in the initial ship design stage. The MRA approach facilitates efficient generation of analysis models from the initial ship design data, thus reducing design lead time. Easy generation of analysis model is important because it allows quick analysis iteration under frequent design changes. The SMM, ABB and PBAM are defined for the analysis model of the typical ship structure. Only a part of the typical initial ship design data has been considered in the experimental implementation of the proposed approach. However, the prototype implementation shows that the application of MRA approach in the structural ship design domain is quite feasible. It is also contemplated that the same approach can be extended for other design and analysis views in the ship design domain.

• 한국항해항만학회지
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• 제29권1호
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• pp.9-15
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• 2005

항만의 계획 및 개발단계에서 중요한 요소 중 하나는 항로의 설계이다. 대부분의 경우 수심이 확보되어 있는 수역이라면 항로의 설계의 핵심은 항로의 배치와 항로폭의 결정이 될 것이다. 본 연구에서는 가변범퍼영역모델을 이용하여 항로를 설계하고 평가한다 이 모델은 선박의 주요명세, 선박점용이론, 선박의 속력, 선박지휘자의 조선기술과 경험을 항로설계에 반영할 수 있으며, 특히 선박의 운동 및 조종특성에 영향을 주는 외력을 정확하게 반영할 수 있다. 이를 위해 선박조종자의 선박제어와 외력 등에 의해 생성되는 선박의 동적데이터를 분석하기 위해 전기능선박조종시뮬레이터를 이용하였으며, 항로의 적정성과 안전성을 평가하기 위해 점용도와 점용지수를 정의한다. 개발된 항로설계기법을 울산신항개발계획에 적용하였다. 이 계획에서 항로의 폭은 전장의 1.5배 중심교각 57도인 만곡부의 곡률반경은 전장의 5.0배로 설계하였으며, 항로부근에는 SBM이 위치하고 있다. 모델의 적용결과 항로의 폭과 곡률반경은 적절하지만, 대각도 변침과 항로부근에 위치한 SBM에 의해 선박조선상의 어려움이 야기되는 것으로 분석되었다.

• 한국빅데이터학회지
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• 제7권1호
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• pp.89-97
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• 2022

선박 충돌 사고는 경제적 손실, 인명피해 등 다양한 부정적 상황을 초래할 수 있기 때문에 사고를 예방하기 위한 다각적인 노력이 필요하다. 따라서 사고 예방을 위한 연구가 활발히 이루어고 있으며, 본 연구에서는 선박 충돌 사고 예방을 위한 새로운 선행 지표를 제안한다. 기존 연구에서는 특정 해역에서 선박들간의 거리를 고려하여 충돌위험을 표현하였지만 이를 다른 해역에 적용하기 위해서는 모델을 새로 개발해야하는 단점이 존재한다. 본 연구에서는 선박 운항 정보인 AIS(Automatic Identification System) 데이터를 활용하여 해역의 환경과 운항의 특징을 포함한 밀도기반 선박 도메인 DESD(Density based Empirical Ship Domain)을 정의하였다. 각 해역별로 만들어진 2차원의 DESD를 대상으로 Deep Clustering을 적용하여 유사한 운항 환경을 가진 해역들을 군집화 한다. 군집화된 해역과 선박 충돌 사고의 연관성 분석을 통해 해역의 특징별로 사고의 발생여부가 달라짐을 통계적으로 검정하여 DESD가 사고의 선행 지표로서 활용될 수 있음을 증명하였다.

• 해양환경안전학회:학술대회논문집
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• 해양환경안전학회 2017년도 공동학술발표회
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• pp.149-149
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• 2017

• 대한조선학회지
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• 제21권3호
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• pp.35-42
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• 1984

In this paper, the lateral motions of a ship in the time domain are treated by applying the Impulse Response Function Technique. The acceleration, and displacement of a ship in the time domain are needed for the purpose of such automatic controls as the fire control system and the auto-pilot of ocean-going vessels, etc. The response Amplitude Operators of a ship are calculated by the Strip Method of Salvesen-Tuck-Faltinsen, and the Pierson-Moskowitz Spectrum multiplied by spreading function is used to represent the short crested ocean waves. The ocean wave elevations in the time domain are simulated according to the Method of Borgman. Finally the rudder effect is considered by simply adding the force and moment due to the rudder to the wave exciting force. And the results of lateral motions with and without rudder are shown.

• 대한조선학회논문집
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• 제47권3호
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• pp.291-305
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• 2010

A three-dimensional time-domain calculation method is of crucial importance in prediction of the motions and wave loads of a ship advancing in a severe irregular sea. The exact solution of the free surface wave-ship interaction problem is very complicated because of the essentially nonlinear boundary conditions. In this paper, an approximate body nonlinear approach based on the three-dimensional time-domain forward-speed free-surface Green function has been presented. The Froude-Krylov force and the hydrostatic restoring force are calculated over the instantaneous wetted surface of the ship while the forces due to the radiation and scattering potentials over the mean wetted surface. The time-domain radiation and scattering potentials have been obtained from a time invariant kernel of integral equations for the potentials which are discretized according to the second-order boundary element method (Hong and Hong 2008). The diffraction impulse-response functions of the Wigley seakeeping model advancing in transient head waves at various Froude numbers have been presented. A simulation of coupled heave-pitch motion of a long rectangular barge advancing in regular head waves of large amplitude has been carried out. Comparisons between the linear and the approximate body nonlinear numerical results of motions and wave loads of the barge at a nonzero Froude number have been made.