Naval Architecture and Ocean Engineering(NAOE) fields cover wide range of subjects associated with ships and offshore structures. The final goal of NAOE lies in the design and production of the reliable and cost-effective transport systems and offshore structures which can carry out successfully missions given in harsh environments in the ocean. The research scopes of Naval Architecture consist of resist and propulsion, propulsor, structure and material, motion and maneuverability, noise and vibration, and welding. The actives of Ocean Engineering cover various scopes of technical problems that arise during the design, construction, load-out, transportation and operation of various forms of structures developed to meet the needs of offshore petroleum and construction industries. Research on ocean environment itself is also one of major research fields of NAOE. To meet increasingly complex technical demands, NAOE extends research fields to cover rigorous analysis of detailed sebjects above mentioned using powerful computers. Computer Integration Design System Development, Automatic Production System Installation, development of more powerful Computational Fluid Dynamic codes etc.
NO15379, NO15380 Calculus in EngineeringⅠ,Ⅱ (3)
미분과 적분에 관한 수학의 원리와 계산, 응용 등을 더욱 심도 있게 학습하여 공학의 다양한 전공에서 요구하는 상위의 수학을 다루는데 도움을 주고자 함.
NO15570 Engineering Linear Algebra (3)
Acquisition of basic knowledge and application about the linear algebra
Basic knowledge learning of linear algebra
Establish the relation between linear simultaneous equations, matrix, determinant, linear transformation and eigenvalue
Comlete a advanced course of linear algebra
Numerical approach of linear algebra (use MATLAB)
NO15214 General Physics I (3)
자연과학계열과 공학계열 학부의 전공교과목 이수에 필요한 기초물리학의 전반적인 내용을 교수한다.
NO15215 General Physics II (3)
자연계열, 공학계열 학과의 전공과목 이수에 필요한 물리학의 전반적인 기초 내용을 교수한다.
NO15039 General Physics Lab. I (1)
일반물리학에서 습득한 지식에 대한 실험을 행함으로써 확실한 물리지식을 얻고 실험기술을 익힌다.
NO15222 General Physics Lab. II (1)
일반물리학에서 습득한 지식에 대한 실험을 행함으로써 확실한 물리지식을 얻고 실험기술을 익힌다.
NO16253 Computer Programming (2)
Improvement of computer programming ability for naval architecture and ocean engineers.
Programming for basic numerical analysis
Basic concept of programming
Practice advanced programming skill
Learn some tools like 'compiler'
Increase Programming ability
NO15905 Statics (3)
힘의 종류 및 성질과 힘의 정적 평형상태를 강의, 정정구조물(트러스, 프레임 구조)의 해석 방법을 습득토록 함, 공학도로서 갖추어야 할 역학의 기초를 마련
NO11033 Dynamics (3)
위치, 속도, 가속도 등과 같은 운동의 기본개념들과 질량 및 관성 모멘트의 개념들을 습득, 자유물체도 작성에 의한 운동방정식 유도방법과 일, 에너지, 운동량, 충격량 등의 개념 및 사용방법을 습득. 동역학적인 원리를 이용하여 문제를 해석하기 위해 공학도로서 갖추어야 할 역학의 기초를 마련
NO10076 Engineering Basic Design (2)
공학설계를 위한 프로젝트 기반의 체계적 접근방법을 통해 팀별 작업과 설계 프로젝트를 효과적으로 수행하기 위한 개념설계 방법 및 프로젝트 관리도구들을 응용하는 방법을 배운다. 또한 설계 프로젝트 결과를 보고하는 수단을 체계화하며, 팀의 행동과 동적 활동에 유용한 통찰력을 부여한다.
NO23736 Differential Equation in Engineering (3)
Mathematics disciple to understand the engineering
Understanding of concept and principle of engineering Mathematics
Element knowledge to apply engineering Mathematics to the related Mechanics
Creative analysis ability to utilize engineering Mathematics through the problem analysis
NO23801 Solid Mechanics (3)
Solid mechanics is a basic subject that students of naval architecture and ocean engineering departments must complete before learning stuctural mechnics, ship stuctural design, design of welded structure and elasticity & plasticity. The subject matter includes such fandamental concepts as stress and strains, defoamations and displacements, elasticity and inelasticity strain energy.
Instruction of analysis method by free body, and strain energyy method, for stressed strain of machine and structure equation of equalitarianl
Including for analysis and design of structural members subjects to tention, compression, torsion, and bending.
Instruction for procedure of analsis and design of structure subjected, stress and strain
NO23834 Fluid Mechanics (3)
To acquire basic knowledges regarding the characteristics of fluids, fluid statics and fluid kinematics. To develop engineering capabilities required to solve various flow related problems.
To understand the definition of fluid and various fluid properties
To calculate the buoyancy force and the stability of immersed body using fluid statics
To study how to convert basic conservation principles into suitable form for the control volume approaches
To predict basic flow system characteristics by applying the Bernoulli's equation
To study the nondimensional groups and to understand the similatude which is essential to the model experiments
NO21500 Basic Experiments in Engineering (1)
Knowledge of measuring technique for mechanical properties of material.
Experimental technique fo ruse of data acqusition system
To cultivate experiment design capability
To enhance team-play effort
To develop measurement and instrumentation skill
To confirm the basic principle of machanics through experiments
To learn basis for the advanced major courses
NO25073 Probability & Statistics (3)
확률의 성질, 확률의 계산, 분포, 통계학의 정의, 추정, 검정, 검사, 분산분석, 상관과 회귀 등을 공학적 관점에서 습득
Basic understanding of probability
Conceptional understanding of probability & statistics
The application of probability & statistics to practical problems
NO25003 Ship Calculations (3)
1. Ship's type, Principal Dimension
2. Centroid, 2nd moment of Area, Center of Buoyancy
3. Stability & Unstability
4. GM & GZ Estimate
5. Archeimedes Principle, List & Trim Estimate
Type of ships, principal dimensions
Calculation of centroid, 2nd moment of inertia, center of buoyancy
Understanding the stable and unstable of a ship
Calculation of GM and GZ value
Principle of Archemedes, Heel, Trim
NO25197 Applied Mathematics (3)
Basic knowledge about complex analysis such as complex numbers, analytic functions, elementary complex functions, complex integration, series expansion, residue theorem, conformal mapping, Fourier transform wil be studied.
Understanding of complex variable and functions
Complex integration
Residue theorem
Fourier transform
Application of complex theory to Engineering problem
NO27917 Ship Resistance Design (3)
Based on the understanding the physics and basic theory of ship resistance, teach the knowledge of wave making resistance, relationship between hull form design and resistance together with hull form optimisation, the full scale ship power and speed prediction from model ship test, the frictional resistance and mechanism of drag(frictional) reduction and finally the type of high speed ships together with hull form characteristics.
Understanding the physics and basic theory of ship resistance
Analysis of wave making resistance, knowledge of relationship between hull form design and resistance together with hull form optimisation
Understanding the full scale ship power and speed prediction from model ship test
Understanding the frictional resistance and mechanism of drag(frictional) reduction
Understanding the type of high speed ships together with hull form characteristics
NO26588 Production Engineering (3)
Aims to build up a knlowledge for ship production process and fabrication technology details such as, shipbuilding planning, typical production process, modern shipyard characteristics, state of the art for advanced shipbuilding technology, etc.
Introduction of shipbuilding process
Modern ship yard facilities
Planning & scheduling
Lifting, Steel ordering & Storage
Fabrication & erection, Accuracy control
NO25019 Structural Mechanics (3)
ㆍAnalysis of ship structures
ㆍStructural design criteria of ship structural components
Structural Mechanics
Energy Principles
Finite element method
Displacement and stress analysis
structural analysis of ships and offshore installations
NO23837 Numerical Analysis (3)
Course will cover solution of nonlinear equation, solution of systems of equations, eigenvalues and eigenvectors, polynomial interpolation, curve fitting, numerical integration, solution of ordinary differential equations
Enable students to evaluate mathematical models with computer programming
Enable students to understand mathematical structure of numerical scheme
NO25102 Welding Laboratory (1)
Introducing the characteristics and operating methods of the various welding equipments.
Training for various welding method ,construction and operating manuals of welding equipments
Trainging for welding engineer with leading technique for welded structures
Training for NODTengineer of welded structures
Training of observation skill of weld-metal and weld-affect zone microstructure
NO25107 Ship Resistance & Propulsion Laboratory (1)
The resistance test, propeller open water test and self-propulsion tests by several models are conducted to predict the full scale performance such as power and speed. By doing these experiments, the data acquisition, experimental technique and experimental uncertainty are understood. By the resistance, POW and self-propulsion tests with models, the full scale power and speed prediction techniques together with hull form and propulsor design techniques are educated.
Understanding of dada acquisition, analysis and reduction with error analysis
Understanding of various experimental techniques in fluid mechanics and their applications
Understanding of the objectives of resistance, POW and self-propulsion tests
Understanding of the principles of resistance, POW and self-propulsion tests together with their data acquisition and reduction process
NO25111 Computer Aided Ship Design (1)
The aim of the course helps understanding of hull form which is 3D free surface form. Also this course helps handling a CAD system and understanding of hull structure by drawing a midship section of hull structure using a CAD system. This course practices representing free curve in 3D by B-spline which is based on mathematics, and learns hull form variation method by Lackenby method.
Understand hull form and cultivate drawing abilities
Understand about ship structure
Cultivate practical design abilities
NO25040 Ship Basic Design (3)
we study the fundamental theory of naval architecture and the ship design procedure.
And we practice on determining the principal dimension and the general arrangement of post Panamax bulk carrier.
Total process of ship design
Conception of Economical ship design
Application and adaptation when define shipyard as production system
Increase determination ability when decide main dimensions
Comprehension of General arrangement
NO25091 Structural Laboratory (1)
In this class, an analysis of the structural action effect will be accomplished by experimentally for the typical cases of the action against the structure. For the analysis, strain gauge which utilizes the characteristics of variation of the electrical resistance as the result of the elongation(or deformation) by the action, will be used as a sensor. In class, the mechanism for the strain gauge will be studied and other sensors which apply the strain gauge will be introduced.
Obtain a ability for the analysis of the structural action effect by experimentally.
Get more deep understading of the theoretical structural mechanics through the experiments.
Mechanical properties of structural material & measurements of stress and strain.
NO25103 Ship Motion & Ocean Engineering Laboratory (1)
흘수, 관성모멘트 , 트림 맞추기, 자유횡요시험, Boxbarge의 GM 구하기, Fourier Analysis
이론과 실험으로 파형 비교, 분산 관계식으로부터 구한 파장을 계측치와 비교, 측정한 파형으로부터 군속도 유도, 깊이 변화에 따른 파 변이 관측, 정지파 실험, 파저 경사 변화에 따른 파형 변이 관측
Practice wave mechanics theory in wave flume to confirm physics of waves
NO25110 Vibration & Acoustics Laboratory (1)
진동ㆍ음향 현상 측정에 사용되는 장비 사용법 실습, 공기중 소음 전파 특성과 보, 판 유추 구조물의 진동 특성 실험 및 이론해와의 비교ㆍ검토
Studies on vibration and noise measuring equipment and how to use them
Studies on the fundamental theories required in vibration and noise measurement and their practical exercise
Understanding on the vibration and noise phenomena and how to extract physical parameters affecting on the phenomena
NO26586 Capstone Design I (3)
인력을 동력으로 하는 설계수행, 소형선박의 건조, 시험, 운항, 선박제작 및 성능평가
ㆍ해저무인잠수정의 설계수행, 모형제작, 시험, 운항 및 성능평가
ㆍ조선 해양산업용 기자재 성능평가 시스템을 이용한 기자재부품의 Web기반 표준설계
ㆍ유사 실적선 자료를 활용하여 선주 요구조건, 환경적조건, 경제적조건, 법적인 조건들을 만족시키는 선박의 주요목과 일반 배치를 결정
NO26587 Capstone DesignⅡ (3)
설계변수에 관련된 제한조건들과 목적함수가 선형식으로 표현되는 선형계획법과 비선형 조건식과 목적함수를 갖는 비선형계획의 일반해법과 유전자 알고리즘의 이해와 실선설계에의 적용.
NO23832 Thermodynamics (3)
A understanding of the fundamentals of thermodynamics (Heat, work, Energy, Entropy, First law of thermodynamics, Second law of thermodynamics, Cycles). Acquirement of the ability applicable to other major subject. Application of thermodynamics on the practical fields.
NO25090 Engineering Materials (3)
Fundamental knowledge on engineering materials. Characterization and processing of engineering materials. Decision making process of materials for naval architects.
Understanding of structures and properties of solid materials
Strengthening mechanism and characteristics of engineering materials
Knowledge on fatigue and fracture failure
Applications and processing of metal alloys
NO25094 Ship Economic Engineering (3)
Design Concept, Design Process, Design Strategy, Cash Flow, Modeling of Cash Flow, Estimation of Investment, Comparison Method of Alternative Designs, Evaluation of Cost and Investment.
Time value of Money
Equivalence of cash flow
Analyzing complicated effect of exchange rate and inflation
Increase analysis & discrimination ability when design and build economical ship
NO21541 Design of Welding Structure (3)
The course studies basic welding methods, weld metallurgy, design of welded structures. Also welding materials and structural strength accompanied by experimental techniques will be lectured.
Understanding of arc physics
Study of various welding methods
Understanding of Welding metallurgy
Study of Welding mechanics
Study of Welding design and practice
NO23838 Applied Mechanics of Solid (3)
Applied mechanics of solid includs applications of plane stress and plane strain,deflection of beams and stability of columns.
Instruction of analysis method by free body, and strain energyy method, for stressed strain of machine and structure equation of equalitarianl
Including for analysis and design of structural members subjects to tention, compression, torsion,and bending.
Instruction for procedure of analsis and design of structure subjected, stress and strain.
NO25007 Ship Hydrodynamics (3)
To acquire basic knowledges regarding the characteristics of fluids, fluid statics and fluid kinematics. To develop engineering capabilities required to solve various flow related problems.
To understand various description of fluid flow and difference between differential and
To derive differential and integral governing equation of flow based on conservaion laws
To study the concept of nondimensional group and similarity law
To enhance problem solving capability for the potential and external flow for marine hydrodynamics
To study the principle of viscous and turbulent flow toward the understanding of complex flow phenomena
NO27916 Ocean Wave Design (3)
The basic knowledge about wave mechanics such as solution of small amplitude water wave formulation and solution, water wave kinematics of progressive and standing wave, wave energy propagation, wave refraction, wave maker theory, and Morison equation will be studied.
Formulation of small amplitude wave problem
Solution of small amplitude wave problem
Kinematics and dynamics of progressive and standing waves
Understanding of wave maker theory
Application of Morison equation in the evaluation of wave forces
NO25006 Ship Motion (3)
Understand the process to calculate the ship motion and the process to assess the seakeeping quality, for the safe and optimum design of ships.
Understanding the dynamics of ship motion in regular wave
Calculate the 6-DOF motion of a ship in frequency domain and in time domain
Learn about the physical meaning of added mass, wave making damping force
Acquire the process of making RAO ,using Strip method
Learn the basic theory on water wave
NO27699 Manufacturing System Engineering (3)
생산을 생산기술, 생산관리, 산업경제의 세 분야로 나누고 각 분야를 상세하면서도 연관성을 강조하여 설명한다. 체계적이고 분석적인 방법을 통해 생산시스템공학에 좀더 쉽게 접근할 수 있도록 한다.
Comprehension of production system
Comprehension of some tools & method for production system design
Application and adaptation when define shipyard as production system
NO24226 Ship Propeller Design (3)
To understand the propulsive elements of the ship.
To learn design and evalation procedures for the marine propellers.
Study on the interaction of hull form and propeller and the propeller geometry
Practice the propeller design in order to design the actual full-scale propeller
Study on the priciples of new concept propulsors and consider the improvement of its performance
NO25013 Ship Structural Design (3)
Ship structural design, Limit state design, Ultimate limit state design, Ultimate stregth of plates, stiffened panels and hull girders.
Allowable stress design method versus limit state design method
Calculation method of hull girder actions
Ultimate limit state assessment and design criteria for ship stiffened plate structures
Ultimate limit state assessment and design criteria for ship's hull girders
NO24227 Ship Vibration (3)
Ship vibration induced by propulsion system, machinery and ocean environment is objectionable when it results in:
- excessive stresses on structural and mechanical components;
- adverse effects on reliability or serviceability of machines and equipment;
- adverse comments from crew and passengers on vibration that interferes with duties or reduce comfort. Hence, vibration reduction and control technology is regarded as one of the key technologies to build high-quality ship.
This lecture aims to study fundamental theory to be applicable for low vibration design of ship and offshore structures including machinery. For the purpose, in this lecture, various vibration phenomena with excitation sources are introduced. Then, free and forced vibration analysis method for one and multi-degree of freedom system is introduced for predicting and reducing the vibration system. Moreover various examples to analysis vibration characteristics, to predict vibration response and to reduce the response are also introduced.
Understanding of Physical Phenomena of Vibration
Study on Fundamental Theory to Analysis Structure and Machinery
Study on Vibration Reduction and Control Using Vibration Analysis Theory
Study on Fundamental Technology to be Applicable for Anti-vibration Design of Ship
NO25074 Strength of Materials (3)
This course studies elasticity and plasticity theory for understanding of mechanical properties of materials. Dislocation, strengthening mechanism, fatigue and fracture mechanics will be studied.
Mechanical behavior of solid materials
Design of structures based on stress and strain concepts
Understanding of fracture design of structures
Hands on experiments for material strength
NO25114 Ocean Equipment Design (3)
해양공학과 해양 환경 그리고 해안 및 해양 구조물의 재료와 부식 및 수중 시스템, 해양장비의 설계 개념을 이해하도록 한다.
NO27159 Ship Maneuverability and Control (3)
선박의 조종 운동 방정식 구성, 조종 유체력, 추력, 타력,기타 외력 평가, MMG 조종 수학 모델의 상세한 내용, IMO 조종성 기준 등을 강의하고, 선박의 자동제어를 위한 고전제어이론을 해설한다. 또한, Auto-Pilot의 성능평가와 조종성에 미치는 영향, 제어계의 안정성 평가등에 대해서도 강의한다.
NO20344 Computational Design Practice (3)
형상 표현에 대한 수학적 알고리즘의 이해와 현존하는 CAD 시스템의 기본적인 사용 방법을 숙지한다.
실습을 통한 실제 선박 제도에 적용을 한다.
Learn translation & expression between geometrical shapes and computer data by using computer graphics.
Learn ability how to express Ship’s shape with 2-D curve or 3-D surface.
Learn numerical analysis technique for solving Design problems (or Mechanical analysis)
Increase optimal design ability for solving mechanical design problems
NO27928 Computer Aided Structural Design (3)
Solutions of advanced engineering design problems using finite elements (FE). This course is intended for beginners in finite element analysis (FEA). After completing this course, all attendance would understand FEA and would be able to use FEA in structural design.
Understanding finite element analysis in the structural design
Understanding finite element modeling
Exercise of finite element analysis and review of the results
NO27921 Structural Vibration Design (3)
Ship vibration is generated by machinery including its propulsion system and sea. The vibration is objectionable when it may result in excessive stresses on structural and mechanical components, adverse effects on reliability or serviceability of machines and equipment, and adverse comments from crew and passengers on vibration that interferes with duties or reduces comfort. Hence, reducing ship vibration is regarded as a key technology to build high-quality ships.
In this lecture, based on the vibration theory for the one and multi degree-of-freedom system treated in Ship vibration, vibration theory for continuous system and fundamental methods for anti-vibration design and countermeasures for excessive vibration are introduced. Then, the followings are studied to increase the ability of low-vibration design for high-quality ship construction. 1) Phenomena and excitation sources of ship vibration 2) Analysis methods of ship vibration 3) Anti-vibration design of ship 4) Measurement and evaluation of ship vibration.
Cultivate student's ability to do vibration analysis for the continuous system
Studies on the fundamental methods applied for vibration reduction and control of ship, offshore structure and machinery
Understanding on the ship vibration phenomena
Studies on excitation sources, analysis method, measurement and evaluation of ship vibration
Practical countermeasures for excessive ship vibration
NO27924 Ocean Environment Design (3)
The understanding of basic ocean environment and design for the environmentally friendly ocean structure
The basic theory about the ocean environment
The understanding of physical properties of sea water
The basic understanding of ocean waves
Knowledges of Marine pollution
NO27922 Ship Equipment Design (3)
박용의장품이란 계획 목표에 따라서 건조된 선박의 전 성능을 발휘하기 위한 모든 장치, 이러한 의장품들은 육상용과는 달리 선박이 지나는 특수성으로 인하여 용접과 중량도 제한되고, 또한 안전성과 신뢰성이 보장되어야 하며, 추진성능과 운항의 경제성과도 부합될 수가 있어야 함. 각각의 의장품에 대한기본적인 원리 및 용도를 주지 시키도록 함.
Understanding of terms and design concepts for ship outfitting
Familiarize design drawings and use of equipments
Knowledge on decision process associated with ship outfit equipments
NO27923 Computational Fluid Design (3)
Learning the feature of fluid and the numerical treatment and analysis of fluid mechanics
Understanding the fundamentals of fluid mechnics
Understanding the motion of fluid particles
Learning the motion of fluid modtion through a finite-difference method
Learning the manual of CFD S/W
Application of CFD S/W to system design
NO25113 Offshore Structural Design (3)
Offshore Structural Design Principle, Offshore Pipeline Design, Offshore Pipeline Installation, Offshore Pipeline Operation.
Overview of Ocean Engineering and its Applications to Offshore Structures
Offshore Pipe Design
Offshore Pipe Installation
Offshore Pipe Operation
NO27918 Leisure Ship Design (3)
레저용 선박을 대상으로 저항추정, 선형설계, 부가물설계 등 설계지식을 정리하고, 실제적인 요트설계 프로젝트를 통해 레저선박 설계능력을 배양한다.
NO27925 Deepwater Petroleum Production Design (3)
Fundamental Ocean Engineering
Historical Perspectives
Deepwater Petroleum Production Structures Design
Detail Design of a Deepwater Structures
Introduction of Ocean Engineering
Application of Ocean Engineering
History of Offshore Industry
Challenger of Offshore Industry
NO27927 Structural Reliability and Risk Based Design (3)
구조물의 강도 평가 또는 설계를 위해 고려해야 할 각종 기본 변수 (Basic Variables)의 정의에는 반드시 불확실성 (Uncertainty)이 존재한다. 이 불확실성을 구조설계과정에 합리적으로 반영하기 위해서는 이들을 확정론적 기법 대신에 신뢰성이론을 적용하여 다루어야 한다. 본 과목은 선체 구조물의 강도 및 안전 평가를 위한 신뢰성 이론과 그 응용법을 다룬다.
NO25095 Ship Power Device (3)
The case study of shipbuilding automation & Semi-automation
NO25105 Acoustics & Noise Engineering (3)
소음의 물리적 현상 소개, 실내외 공기 전달소음, 공조소음, 고체전달 소음의 전파 특성 및 해석 방법 소개, 선박 소음의 해석, 방음설계 및 제어 방법 소개
NO25108 Special Lectures in Naval Architecture and Offshore Engineering (3)
공학교육의 현장 적용 소개, 공학도들의 문화적 소양 배양 및 수준 향상으로 사회 지도자급 육성, 경제활동의 선도적 역할을 담당하고 있는 산업계가 예측하는 기술발전 방향 소개
To introduce applications of the engineering education in industrial fields.
To nurture social leaders with cultural knowledge cultivation and level improvement.
To introduce the development trend of technologies estimated by advanced industries.
NO25112 Elasticity & Plastic (3)
재료 및 구조물의 강도평가용 기초이론인 탄소성학 기본지식 함양, 응력, 변형률 등 기초물리량의 물리적 의미, 이론적 배경, 각종 역학문제에서의 적용방법 등 역학적 관점에서의 이론응용방법 강의
NO27160 Engineering Logic and Essay (3)
공업교과의 특성에 부합되는 논리적 사고의 근본 법칙 및 논술에 관한 교육에 역점을 둠.
NO27535 Engineering Education (3)
공업교육의 역사적 배경, 교과교육의 목표, 중·고등학교 교육과정의 분석 등 교과교육전반에 관하여 연구함.
NO27534 Engineering Research and Teaching (3)
공업교과의 성격, 중·고등학교 교재의 분석, 수업안의 작성, 교수방법 등 교과지도의 실제경험을 쌓게 함.
미분과 적분에 관한 수학의 원리와 계산, 응용 등을 더욱 심도 있게 학습하여 공학의 다양한 전공에서 요구하는 상위의 수학을 다루는데 도움을 주고자 함.
NO15570 Engineering Linear Algebra (3)
Acquisition of basic knowledge and application about the linear algebra
Basic knowledge learning of linear algebra
Establish the relation between linear simultaneous equations, matrix, determinant, linear transformation and eigenvalue
Comlete a advanced course of linear algebra
Numerical approach of linear algebra (use MATLAB)
NO15214 General Physics I (3)
자연과학계열과 공학계열 학부의 전공교과목 이수에 필요한 기초물리학의 전반적인 내용을 교수한다.
NO15215 General Physics II (3)
자연계열, 공학계열 학과의 전공과목 이수에 필요한 물리학의 전반적인 기초 내용을 교수한다.
NO15039 General Physics Lab. I (1)
일반물리학에서 습득한 지식에 대한 실험을 행함으로써 확실한 물리지식을 얻고 실험기술을 익힌다.
NO15222 General Physics Lab. II (1)
일반물리학에서 습득한 지식에 대한 실험을 행함으로써 확실한 물리지식을 얻고 실험기술을 익힌다.
NO16253 Computer Programming (2)
Improvement of computer programming ability for naval architecture and ocean engineers.
Programming for basic numerical analysis
Basic concept of programming
Practice advanced programming skill
Learn some tools like 'compiler'
Increase Programming ability
NO15905 Statics (3)
힘의 종류 및 성질과 힘의 정적 평형상태를 강의, 정정구조물(트러스, 프레임 구조)의 해석 방법을 습득토록 함, 공학도로서 갖추어야 할 역학의 기초를 마련
NO11033 Dynamics (3)
위치, 속도, 가속도 등과 같은 운동의 기본개념들과 질량 및 관성 모멘트의 개념들을 습득, 자유물체도 작성에 의한 운동방정식 유도방법과 일, 에너지, 운동량, 충격량 등의 개념 및 사용방법을 습득. 동역학적인 원리를 이용하여 문제를 해석하기 위해 공학도로서 갖추어야 할 역학의 기초를 마련
NO10076 Engineering Basic Design (2)
공학설계를 위한 프로젝트 기반의 체계적 접근방법을 통해 팀별 작업과 설계 프로젝트를 효과적으로 수행하기 위한 개념설계 방법 및 프로젝트 관리도구들을 응용하는 방법을 배운다. 또한 설계 프로젝트 결과를 보고하는 수단을 체계화하며, 팀의 행동과 동적 활동에 유용한 통찰력을 부여한다.
NO23736 Differential Equation in Engineering (3)
Mathematics disciple to understand the engineering
Understanding of concept and principle of engineering Mathematics
Element knowledge to apply engineering Mathematics to the related Mechanics
Creative analysis ability to utilize engineering Mathematics through the problem analysis
NO23801 Solid Mechanics (3)
Solid mechanics is a basic subject that students of naval architecture and ocean engineering departments must complete before learning stuctural mechnics, ship stuctural design, design of welded structure and elasticity & plasticity. The subject matter includes such fandamental concepts as stress and strains, defoamations and displacements, elasticity and inelasticity strain energy.
Instruction of analysis method by free body, and strain energyy method, for stressed strain of machine and structure equation of equalitarianl
Including for analysis and design of structural members subjects to tention, compression, torsion, and bending.
Instruction for procedure of analsis and design of structure subjected, stress and strain
NO23834 Fluid Mechanics (3)
To acquire basic knowledges regarding the characteristics of fluids, fluid statics and fluid kinematics. To develop engineering capabilities required to solve various flow related problems.
To understand the definition of fluid and various fluid properties
To calculate the buoyancy force and the stability of immersed body using fluid statics
To study how to convert basic conservation principles into suitable form for the control volume approaches
To predict basic flow system characteristics by applying the Bernoulli's equation
To study the nondimensional groups and to understand the similatude which is essential to the model experiments
NO21500 Basic Experiments in Engineering (1)
Knowledge of measuring technique for mechanical properties of material.
Experimental technique fo ruse of data acqusition system
To cultivate experiment design capability
To enhance team-play effort
To develop measurement and instrumentation skill
To confirm the basic principle of machanics through experiments
To learn basis for the advanced major courses
NO25073 Probability & Statistics (3)
확률의 성질, 확률의 계산, 분포, 통계학의 정의, 추정, 검정, 검사, 분산분석, 상관과 회귀 등을 공학적 관점에서 습득
Basic understanding of probability
Conceptional understanding of probability & statistics
The application of probability & statistics to practical problems
NO25003 Ship Calculations (3)
1. Ship's type, Principal Dimension
2. Centroid, 2nd moment of Area, Center of Buoyancy
3. Stability & Unstability
4. GM & GZ Estimate
5. Archeimedes Principle, List & Trim Estimate
Type of ships, principal dimensions
Calculation of centroid, 2nd moment of inertia, center of buoyancy
Understanding the stable and unstable of a ship
Calculation of GM and GZ value
Principle of Archemedes, Heel, Trim
NO25197 Applied Mathematics (3)
Basic knowledge about complex analysis such as complex numbers, analytic functions, elementary complex functions, complex integration, series expansion, residue theorem, conformal mapping, Fourier transform wil be studied.
Understanding of complex variable and functions
Complex integration
Residue theorem
Fourier transform
Application of complex theory to Engineering problem
NO27917 Ship Resistance Design (3)
Based on the understanding the physics and basic theory of ship resistance, teach the knowledge of wave making resistance, relationship between hull form design and resistance together with hull form optimisation, the full scale ship power and speed prediction from model ship test, the frictional resistance and mechanism of drag(frictional) reduction and finally the type of high speed ships together with hull form characteristics.
Understanding the physics and basic theory of ship resistance
Analysis of wave making resistance, knowledge of relationship between hull form design and resistance together with hull form optimisation
Understanding the full scale ship power and speed prediction from model ship test
Understanding the frictional resistance and mechanism of drag(frictional) reduction
Understanding the type of high speed ships together with hull form characteristics
NO26588 Production Engineering (3)
Aims to build up a knlowledge for ship production process and fabrication technology details such as, shipbuilding planning, typical production process, modern shipyard characteristics, state of the art for advanced shipbuilding technology, etc.
Introduction of shipbuilding process
Modern ship yard facilities
Planning & scheduling
Lifting, Steel ordering & Storage
Fabrication & erection, Accuracy control
NO25019 Structural Mechanics (3)
ㆍAnalysis of ship structures
ㆍStructural design criteria of ship structural components
Structural Mechanics
Energy Principles
Finite element method
Displacement and stress analysis
structural analysis of ships and offshore installations
NO23837 Numerical Analysis (3)
Course will cover solution of nonlinear equation, solution of systems of equations, eigenvalues and eigenvectors, polynomial interpolation, curve fitting, numerical integration, solution of ordinary differential equations
Enable students to evaluate mathematical models with computer programming
Enable students to understand mathematical structure of numerical scheme
NO25102 Welding Laboratory (1)
Introducing the characteristics and operating methods of the various welding equipments.
Training for various welding method ,construction and operating manuals of welding equipments
Trainging for welding engineer with leading technique for welded structures
Training for NODTengineer of welded structures
Training of observation skill of weld-metal and weld-affect zone microstructure
NO25107 Ship Resistance & Propulsion Laboratory (1)
The resistance test, propeller open water test and self-propulsion tests by several models are conducted to predict the full scale performance such as power and speed. By doing these experiments, the data acquisition, experimental technique and experimental uncertainty are understood. By the resistance, POW and self-propulsion tests with models, the full scale power and speed prediction techniques together with hull form and propulsor design techniques are educated.
Understanding of dada acquisition, analysis and reduction with error analysis
Understanding of various experimental techniques in fluid mechanics and their applications
Understanding of the objectives of resistance, POW and self-propulsion tests
Understanding of the principles of resistance, POW and self-propulsion tests together with their data acquisition and reduction process
NO25111 Computer Aided Ship Design (1)
The aim of the course helps understanding of hull form which is 3D free surface form. Also this course helps handling a CAD system and understanding of hull structure by drawing a midship section of hull structure using a CAD system. This course practices representing free curve in 3D by B-spline which is based on mathematics, and learns hull form variation method by Lackenby method.
Understand hull form and cultivate drawing abilities
Understand about ship structure
Cultivate practical design abilities
NO25040 Ship Basic Design (3)
we study the fundamental theory of naval architecture and the ship design procedure.
And we practice on determining the principal dimension and the general arrangement of post Panamax bulk carrier.
Total process of ship design
Conception of Economical ship design
Application and adaptation when define shipyard as production system
Increase determination ability when decide main dimensions
Comprehension of General arrangement
NO25091 Structural Laboratory (1)
In this class, an analysis of the structural action effect will be accomplished by experimentally for the typical cases of the action against the structure. For the analysis, strain gauge which utilizes the characteristics of variation of the electrical resistance as the result of the elongation(or deformation) by the action, will be used as a sensor. In class, the mechanism for the strain gauge will be studied and other sensors which apply the strain gauge will be introduced.
Obtain a ability for the analysis of the structural action effect by experimentally.
Get more deep understading of the theoretical structural mechanics through the experiments.
Mechanical properties of structural material & measurements of stress and strain.
NO25103 Ship Motion & Ocean Engineering Laboratory (1)
흘수, 관성모멘트 , 트림 맞추기, 자유횡요시험, Boxbarge의 GM 구하기, Fourier Analysis
이론과 실험으로 파형 비교, 분산 관계식으로부터 구한 파장을 계측치와 비교, 측정한 파형으로부터 군속도 유도, 깊이 변화에 따른 파 변이 관측, 정지파 실험, 파저 경사 변화에 따른 파형 변이 관측
Practice wave mechanics theory in wave flume to confirm physics of waves
NO25110 Vibration & Acoustics Laboratory (1)
진동ㆍ음향 현상 측정에 사용되는 장비 사용법 실습, 공기중 소음 전파 특성과 보, 판 유추 구조물의 진동 특성 실험 및 이론해와의 비교ㆍ검토
Studies on vibration and noise measuring equipment and how to use them
Studies on the fundamental theories required in vibration and noise measurement and their practical exercise
Understanding on the vibration and noise phenomena and how to extract physical parameters affecting on the phenomena
NO26586 Capstone Design I (3)
인력을 동력으로 하는 설계수행, 소형선박의 건조, 시험, 운항, 선박제작 및 성능평가
ㆍ해저무인잠수정의 설계수행, 모형제작, 시험, 운항 및 성능평가
ㆍ조선 해양산업용 기자재 성능평가 시스템을 이용한 기자재부품의 Web기반 표준설계
ㆍ유사 실적선 자료를 활용하여 선주 요구조건, 환경적조건, 경제적조건, 법적인 조건들을 만족시키는 선박의 주요목과 일반 배치를 결정
NO26587 Capstone DesignⅡ (3)
설계변수에 관련된 제한조건들과 목적함수가 선형식으로 표현되는 선형계획법과 비선형 조건식과 목적함수를 갖는 비선형계획의 일반해법과 유전자 알고리즘의 이해와 실선설계에의 적용.
NO23832 Thermodynamics (3)
A understanding of the fundamentals of thermodynamics (Heat, work, Energy, Entropy, First law of thermodynamics, Second law of thermodynamics, Cycles). Acquirement of the ability applicable to other major subject. Application of thermodynamics on the practical fields.
NO25090 Engineering Materials (3)
Fundamental knowledge on engineering materials. Characterization and processing of engineering materials. Decision making process of materials for naval architects.
Understanding of structures and properties of solid materials
Strengthening mechanism and characteristics of engineering materials
Knowledge on fatigue and fracture failure
Applications and processing of metal alloys
NO25094 Ship Economic Engineering (3)
Design Concept, Design Process, Design Strategy, Cash Flow, Modeling of Cash Flow, Estimation of Investment, Comparison Method of Alternative Designs, Evaluation of Cost and Investment.
Time value of Money
Equivalence of cash flow
Analyzing complicated effect of exchange rate and inflation
Increase analysis & discrimination ability when design and build economical ship
NO21541 Design of Welding Structure (3)
The course studies basic welding methods, weld metallurgy, design of welded structures. Also welding materials and structural strength accompanied by experimental techniques will be lectured.
Understanding of arc physics
Study of various welding methods
Understanding of Welding metallurgy
Study of Welding mechanics
Study of Welding design and practice
NO23838 Applied Mechanics of Solid (3)
Applied mechanics of solid includs applications of plane stress and plane strain,deflection of beams and stability of columns.
Instruction of analysis method by free body, and strain energyy method, for stressed strain of machine and structure equation of equalitarianl
Including for analysis and design of structural members subjects to tention, compression, torsion,and bending.
Instruction for procedure of analsis and design of structure subjected, stress and strain.
NO25007 Ship Hydrodynamics (3)
To acquire basic knowledges regarding the characteristics of fluids, fluid statics and fluid kinematics. To develop engineering capabilities required to solve various flow related problems.
To understand various description of fluid flow and difference between differential and
To derive differential and integral governing equation of flow based on conservaion laws
To study the concept of nondimensional group and similarity law
To enhance problem solving capability for the potential and external flow for marine hydrodynamics
To study the principle of viscous and turbulent flow toward the understanding of complex flow phenomena
NO27916 Ocean Wave Design (3)
The basic knowledge about wave mechanics such as solution of small amplitude water wave formulation and solution, water wave kinematics of progressive and standing wave, wave energy propagation, wave refraction, wave maker theory, and Morison equation will be studied.
Formulation of small amplitude wave problem
Solution of small amplitude wave problem
Kinematics and dynamics of progressive and standing waves
Understanding of wave maker theory
Application of Morison equation in the evaluation of wave forces
NO25006 Ship Motion (3)
Understand the process to calculate the ship motion and the process to assess the seakeeping quality, for the safe and optimum design of ships.
Understanding the dynamics of ship motion in regular wave
Calculate the 6-DOF motion of a ship in frequency domain and in time domain
Learn about the physical meaning of added mass, wave making damping force
Acquire the process of making RAO ,using Strip method
Learn the basic theory on water wave
NO27699 Manufacturing System Engineering (3)
생산을 생산기술, 생산관리, 산업경제의 세 분야로 나누고 각 분야를 상세하면서도 연관성을 강조하여 설명한다. 체계적이고 분석적인 방법을 통해 생산시스템공학에 좀더 쉽게 접근할 수 있도록 한다.
Comprehension of production system
Comprehension of some tools & method for production system design
Application and adaptation when define shipyard as production system
NO24226 Ship Propeller Design (3)
To understand the propulsive elements of the ship.
To learn design and evalation procedures for the marine propellers.
Study on the interaction of hull form and propeller and the propeller geometry
Practice the propeller design in order to design the actual full-scale propeller
Study on the priciples of new concept propulsors and consider the improvement of its performance
NO25013 Ship Structural Design (3)
Ship structural design, Limit state design, Ultimate limit state design, Ultimate stregth of plates, stiffened panels and hull girders.
Allowable stress design method versus limit state design method
Calculation method of hull girder actions
Ultimate limit state assessment and design criteria for ship stiffened plate structures
Ultimate limit state assessment and design criteria for ship's hull girders
NO24227 Ship Vibration (3)
Ship vibration induced by propulsion system, machinery and ocean environment is objectionable when it results in:
- excessive stresses on structural and mechanical components;
- adverse effects on reliability or serviceability of machines and equipment;
- adverse comments from crew and passengers on vibration that interferes with duties or reduce comfort. Hence, vibration reduction and control technology is regarded as one of the key technologies to build high-quality ship.
This lecture aims to study fundamental theory to be applicable for low vibration design of ship and offshore structures including machinery. For the purpose, in this lecture, various vibration phenomena with excitation sources are introduced. Then, free and forced vibration analysis method for one and multi-degree of freedom system is introduced for predicting and reducing the vibration system. Moreover various examples to analysis vibration characteristics, to predict vibration response and to reduce the response are also introduced.
Understanding of Physical Phenomena of Vibration
Study on Fundamental Theory to Analysis Structure and Machinery
Study on Vibration Reduction and Control Using Vibration Analysis Theory
Study on Fundamental Technology to be Applicable for Anti-vibration Design of Ship
NO25074 Strength of Materials (3)
This course studies elasticity and plasticity theory for understanding of mechanical properties of materials. Dislocation, strengthening mechanism, fatigue and fracture mechanics will be studied.
Mechanical behavior of solid materials
Design of structures based on stress and strain concepts
Understanding of fracture design of structures
Hands on experiments for material strength
NO25114 Ocean Equipment Design (3)
해양공학과 해양 환경 그리고 해안 및 해양 구조물의 재료와 부식 및 수중 시스템, 해양장비의 설계 개념을 이해하도록 한다.
NO27159 Ship Maneuverability and Control (3)
선박의 조종 운동 방정식 구성, 조종 유체력, 추력, 타력,기타 외력 평가, MMG 조종 수학 모델의 상세한 내용, IMO 조종성 기준 등을 강의하고, 선박의 자동제어를 위한 고전제어이론을 해설한다. 또한, Auto-Pilot의 성능평가와 조종성에 미치는 영향, 제어계의 안정성 평가등에 대해서도 강의한다.
NO20344 Computational Design Practice (3)
형상 표현에 대한 수학적 알고리즘의 이해와 현존하는 CAD 시스템의 기본적인 사용 방법을 숙지한다.
실습을 통한 실제 선박 제도에 적용을 한다.
Learn translation & expression between geometrical shapes and computer data by using computer graphics.
Learn ability how to express Ship’s shape with 2-D curve or 3-D surface.
Learn numerical analysis technique for solving Design problems (or Mechanical analysis)
Increase optimal design ability for solving mechanical design problems
NO27928 Computer Aided Structural Design (3)
Solutions of advanced engineering design problems using finite elements (FE). This course is intended for beginners in finite element analysis (FEA). After completing this course, all attendance would understand FEA and would be able to use FEA in structural design.
Understanding finite element analysis in the structural design
Understanding finite element modeling
Exercise of finite element analysis and review of the results
NO27921 Structural Vibration Design (3)
Ship vibration is generated by machinery including its propulsion system and sea. The vibration is objectionable when it may result in excessive stresses on structural and mechanical components, adverse effects on reliability or serviceability of machines and equipment, and adverse comments from crew and passengers on vibration that interferes with duties or reduces comfort. Hence, reducing ship vibration is regarded as a key technology to build high-quality ships.
In this lecture, based on the vibration theory for the one and multi degree-of-freedom system treated in Ship vibration, vibration theory for continuous system and fundamental methods for anti-vibration design and countermeasures for excessive vibration are introduced. Then, the followings are studied to increase the ability of low-vibration design for high-quality ship construction. 1) Phenomena and excitation sources of ship vibration 2) Analysis methods of ship vibration 3) Anti-vibration design of ship 4) Measurement and evaluation of ship vibration.
Cultivate student's ability to do vibration analysis for the continuous system
Studies on the fundamental methods applied for vibration reduction and control of ship, offshore structure and machinery
Understanding on the ship vibration phenomena
Studies on excitation sources, analysis method, measurement and evaluation of ship vibration
Practical countermeasures for excessive ship vibration
NO27924 Ocean Environment Design (3)
The understanding of basic ocean environment and design for the environmentally friendly ocean structure
The basic theory about the ocean environment
The understanding of physical properties of sea water
The basic understanding of ocean waves
Knowledges of Marine pollution
NO27922 Ship Equipment Design (3)
박용의장품이란 계획 목표에 따라서 건조된 선박의 전 성능을 발휘하기 위한 모든 장치, 이러한 의장품들은 육상용과는 달리 선박이 지나는 특수성으로 인하여 용접과 중량도 제한되고, 또한 안전성과 신뢰성이 보장되어야 하며, 추진성능과 운항의 경제성과도 부합될 수가 있어야 함. 각각의 의장품에 대한기본적인 원리 및 용도를 주지 시키도록 함.
Understanding of terms and design concepts for ship outfitting
Familiarize design drawings and use of equipments
Knowledge on decision process associated with ship outfit equipments
NO27923 Computational Fluid Design (3)
Learning the feature of fluid and the numerical treatment and analysis of fluid mechanics
Understanding the fundamentals of fluid mechnics
Understanding the motion of fluid particles
Learning the motion of fluid modtion through a finite-difference method
Learning the manual of CFD S/W
Application of CFD S/W to system design
NO25113 Offshore Structural Design (3)
Offshore Structural Design Principle, Offshore Pipeline Design, Offshore Pipeline Installation, Offshore Pipeline Operation.
Overview of Ocean Engineering and its Applications to Offshore Structures
Offshore Pipe Design
Offshore Pipe Installation
Offshore Pipe Operation
NO27918 Leisure Ship Design (3)
레저용 선박을 대상으로 저항추정, 선형설계, 부가물설계 등 설계지식을 정리하고, 실제적인 요트설계 프로젝트를 통해 레저선박 설계능력을 배양한다.
NO27925 Deepwater Petroleum Production Design (3)
Fundamental Ocean Engineering
Historical Perspectives
Deepwater Petroleum Production Structures Design
Detail Design of a Deepwater Structures
Introduction of Ocean Engineering
Application of Ocean Engineering
History of Offshore Industry
Challenger of Offshore Industry
NO27927 Structural Reliability and Risk Based Design (3)
구조물의 강도 평가 또는 설계를 위해 고려해야 할 각종 기본 변수 (Basic Variables)의 정의에는 반드시 불확실성 (Uncertainty)이 존재한다. 이 불확실성을 구조설계과정에 합리적으로 반영하기 위해서는 이들을 확정론적 기법 대신에 신뢰성이론을 적용하여 다루어야 한다. 본 과목은 선체 구조물의 강도 및 안전 평가를 위한 신뢰성 이론과 그 응용법을 다룬다.
NO25095 Ship Power Device (3)
The case study of shipbuilding automation & Semi-automation
NO25105 Acoustics & Noise Engineering (3)
소음의 물리적 현상 소개, 실내외 공기 전달소음, 공조소음, 고체전달 소음의 전파 특성 및 해석 방법 소개, 선박 소음의 해석, 방음설계 및 제어 방법 소개
NO25108 Special Lectures in Naval Architecture and Offshore Engineering (3)
공학교육의 현장 적용 소개, 공학도들의 문화적 소양 배양 및 수준 향상으로 사회 지도자급 육성, 경제활동의 선도적 역할을 담당하고 있는 산업계가 예측하는 기술발전 방향 소개
To introduce applications of the engineering education in industrial fields.
To nurture social leaders with cultural knowledge cultivation and level improvement.
To introduce the development trend of technologies estimated by advanced industries.
NO25112 Elasticity & Plastic (3)
재료 및 구조물의 강도평가용 기초이론인 탄소성학 기본지식 함양, 응력, 변형률 등 기초물리량의 물리적 의미, 이론적 배경, 각종 역학문제에서의 적용방법 등 역학적 관점에서의 이론응용방법 강의
NO27160 Engineering Logic and Essay (3)
공업교과의 특성에 부합되는 논리적 사고의 근본 법칙 및 논술에 관한 교육에 역점을 둠.
NO27535 Engineering Education (3)
공업교육의 역사적 배경, 교과교육의 목표, 중·고등학교 교육과정의 분석 등 교과교육전반에 관하여 연구함.
NO27534 Engineering Research and Teaching (3)
공업교과의 성격, 중·고등학교 교재의 분석, 수업안의 작성, 교수방법 등 교과지도의 실제경험을 쌓게 함.