Graduate

Common Core	Smart & Safety
NA6200222 Nonlinear Structural Mechanics NA6200713 Theory of Linear Vibration NA6300847 Advanced Theory of Design Engineering NA7000852 Applied Computaional Techniques on Fluid Dynamics NA7000859 Advanced Analysis Theory of Ship Propulsion NA7300121 Advanced Theory of Ship Structural Design NA7300713 Advanced Theory of Mechanical Behavior of Materials NA7500560 Theory of Elasticity NA6001285 Advanced Hydrodynamics NA7500567 Thermal Systems Engineering NA7600752 Floating body dynamics NA6200888 Thesis Research NA6300873 Special Topics in Naval Architecture and Ocean Engineering NA7400002 Advanced Application of Ship and Offshore Structures NA7500746 Internship in Naval Architecture and Ocean Engineering NA6001284 Liquid Energy Carrier Special NA6001479 COMPUTATIONAL THERMO-FLUID DYNAMICS	NA6200725 Advanced Theory of Design Automation NA6300495 Continuum Mechanics NA6800742 Simulation-based System Design NA7000853 Advanced Theory of Intelligent Ship Design NA7000860 Risk Assessment and Management NA7500553 Safety Design Engineering NA7500554 Information Communication Technology in Ship and Offshore NA7500555 Hyper-connectivity and Super-intelligence in Ship and Offshore NA7300192 Advanced Measurement and Signal Processing NA7500557 Ship Maneuverability and Control NA7600753 Advanced Seakeeping and Maneuvering NA6001286 Special topics in smart yard technology NA7600755 Advanced theory in smart welding and joining technology NA7600877 Advanced Smart Ship Control Technology NA7700087 PBL on Special topics in smart yard technology NA6001420 NUMERICAL SEAKEEPING ANALYSIS NA6001382 Performance Prediction Laboratory for Unmanned Surface Vehicle based on Real Navigation Data
Environment	Alternative Energy
NA6900824 Advanced Theory of Noise Control NA7000854 Advanced Theory for Drag Reduction Materials NA7000855 Advanced Theory of Ship Resistance NA7000856 Advanced Theory of Ship Flow Control NA7500551 Advanced Theory of Limit State Design NA7500552 Impact Engineering NA7500558 Ship Vibration Control NA7500559 Theory of High Efficiency Propulsion System NA7500561 Theory of Plasticity NA7500562 Advanced Theory of Fatigue and Fracture NA7500568 Viscous Flow Theory	NA7400576 Introduction to Flow-induced Vibration NA7500563 Particle Dynamics of Continuum NA7500565 Marine Hydrodynamics NA7500566 Physical Modeling of Ocean Engineering NA7500569 Electrochemistry NA7500570 Multibody Dynamics NA6001077 Advanced Water waves NA7500572 Advanced Theory of Offshore Installations NA6001412 UNDERWATER RIGID BODY DYNAMICS

NA6001077 Advanced Water waves

In association with the propagation of water waves, we are going to classify the types of water waves(hyperbolic and dispersive). We study the dispersive waves, shallow water waves and their nonlinear effects.

 

NA6001284 Liquid Energy Carrier Special

In the shipbuilding and marine market, the fuel and cargo of ships are changing in response to climate change and eco-friendly energy needs, so we learn how to respond to changes in ships and products, focusing on the movements of global companies.

Changes in human social energy, marine energy development, ship cargo and fuel changes, marine production fossil energy and global trade, eco-friendly transportation and fuel changes are examined, and future changes and countermeasures in the ship and equipment industry are learned. In this process, we focus on fossil energy and post-fossil energy to illuminate the present and future.

 

NA6001285 Advanced Hydrodynamics

We are going to study ideal fluid flow and free-surface hydrodynamics based on the background of the knowledge in the undergraduate curriculum. In this course, we are going to review them and apply them to ocean engineering problems.

 

NA6001286 Special topics in smart yard technology

Technologies of Industry 4.0 for smart yard applications

 

NA6001382 Performance Prediction Laboratory for Unmanned Surface Vehicle based on Real Navigation Data

To study the theoretical model and implement the practice toward the real navigation data-driven prediction of the speed performance and power consumption of unmanned surface vehicle under the influence of irregular and random ocean environment

 

NA6001412 UNDERWATER RIGID BODY DYNAMICS

This course provides a systematic theoretical foundation for analyzing the six-degree-of-freedom motion of bodies in underwater environments. It covers inertial and rigid-body dynamics, the characteristics of hydrodynamic forces, and hydrodynamic modeling techniques derived from constrained model tests. Building on these principles, the course aims to develop students’ ability to quantitatively evaluate the motion behavior and maneuvering performance of underwater vehicles.

 

NA6001420 NUMERICAL SEAKEEPING ANALYSIS

- Numerical development in linux environments

- Introduction of Git & Cmake and exmples

- Modern Fortran Programming

- Boundary Element Method & Formalization of Seakeeping Analysis

- Numerical Seakeeping Analysis

 

 

NA6001479 COMPUTATIONAL THERMO-FLUID DYNAMICS

'- It is a discipline that learns the flow of fluids and heat transfer, which play an important role in the fields of natural sciences and engineering, using computer simulation and mathematical modeling.

- Computational thermo-fluid dynamics is utilized to understand and predict the flow of various fluids such as air, water, and oil, as well as the transfer of energy.

- It involves learning theoretical models of heat transfer based on large eddy simulation (LES), which is most commonly used in turbulence modeling.

- This knowledge is applied across various fields including mechanical design of ships, marine plants, automobiles, aircraft, household appliances, chemical processes, energy production and transportation, weather forecasting, biomedicine, and environmental science.

 

NA6202305 APPLIED INTELLIGENT CONTROL FOR MARINE SYSTEMS

This lecture aims to provide a fundamental understanding of linear control theory, along with instruction in nonlinear control theory for ship control systems that exhibit strong nonlinearities due to the influence of external forces on system behavior.

 

NA6200222 Nonlinear Structural Mechanics

To present and explore systematic procedures for geometric and material nonlinear structural analysis. And to introduce and encourage the use of advanced nonlinear analysis software and to explore the significance of common nonlinear phenomena, particularly in relation to ships and offshore structural response under extreme and accidental events. On successfully completing the course unit, students will able to understand basic/advanced non-linear FE theories and apply the knowledge to analyze ships and offshore structures.

 

NA6200713 Theory of Linear Vibration

The main objective of this subject cultivates analytically oriented engineering ability in the fields of structural dynamics including vibration. For the purpose, analytical methods such as advanced principles of dynamics and coordinate transformation concepts are studied, which can be applied for the analysis of discrete and continuous vibratory systems. In addition, various approximate methods including the finite element method are studied which can be applied for the practical vibration analysis of real systems such as ship stiffened-plates and propulsion shaft. Additionally, problem-based case studies related to ship vibration are done. A unified approach to practical problems described by similar mathematical models enables one to gain deeper insight into the associated physical systems related to vibration.

 

NA6200725 Advanced Theory of Design Automation

This class contains the systematic process of design for engineering system optimization. The purpose is the applying the engineering design problem through the basic optimization and optimum design example. This class offers understanding for design process and capability of design by using the formulation, graphic solution, numerical method and basic optimum concepts.

 

NA6200888 Thesis Research

1. Discussion of research topics and monitoring the progress of thesis

2. All the progress will be supervised by the advisor

 

NA6300495 Continuum Mechanics

Based on the knowledge underlying the continuum media, this course discusses tensors, Kinematics, Kinetics and constitutive relations in linear elastic solid materials.

 

NA6300847 Advanced Theory of Design Engineering

The purpose of class is learn of basic and advanced knowledge that overall understanding for learning by data, feasible learning. This class offers the concept of linear mode, data error and noise. It can be help you to understand the effect of data and can be apply to design of ship.

 

NA6300873 Special Topics in Naval Architecture and Ocean Engineering

Lectures will be given 11 times about the overall naval architecture and ocean engineering field with the separate topics by the 10 lectures respectively.

 

NA6800742 Simulation-based System Design

Focused on ship and offshore systems, this course integrates physical insight with simulation and optimization. You’ll structure complex problems, build CFD-driven or multi-physics models, and use design-of-experiments, surrogate modeling, and sensitivity/uncertainty analysis to guide choices. Team projects mirror industry practice: define objectives and constraints, run studies, and deliver a design justified by data.

 

NA6900824 Advanced Theory of Noise Control

Technology to realize a low noisy environment in the community and industry is important not only to increase the quality of living and working but also to design and produce high quality product of ships, vehicles, aircraft and so on. Especially, noise control technology in shipbuilding and offshore structure industry is one of the core technology not only to design and produce eco-friendly higher added value products such as cruise ships but also to protect marine lives against underwater radiated noise generated by ships. This lecture aims to cultivate noise control engineering ability by studying the generation, propagation, dissipation mechanisms of sound, practical analysis methods of sound propagation and practical countermeasures to reduce excessive noise.

 

NA7000852 Applied Computaional Techniques on Fluid Dynamics

We concentrate on incompressible flows central to naval and offshore engineering: free-surface hydrodynamics, turbulence, floating-body motion, and AI-assisted CFD usage. Beyond theory, the course emphasizes “getting reliable answers”: mesh independence, boundary-condition choices, model selection, and error budgeting. Case studies translate methods into practice—resistance/propulsion, seakeeping, and waves–structure interaction.

 

NA7000853 Advanced Theory of Intelligent Ship Design

This class offers the basic and advanced theory of artificial intelligent to design the smart ship. Introduce the linear regression, linear classification, concept of neural network(NN) and NN learning method. For understand the artificial intelligent, we study the machine learning diagnostic, shallow NN, deep NN, CNN for image classification and RNN.

 

NA7000854 Advanced Theory for Drag Reduction Materials  

Understand the concept and kind of paint as a material that can reduce ship resistance and acquire basic knowledge for the development of materials for friction resistance reduction through application examples according to the physical and chemical properties of paint components.

 

NA7000855 Advanced Theory of Ship Resistance

Toward the reduction of greenhouse gas emission, to comprehend physical concept and knowledge required to design an advanced hull form with reduced wavemaking resistance and added resistance

 

NA7000856 Advanced Theory of Ship Flow Control

Toward the reduction of greenhouse gas emission, to understand the basic principle of turbulent flow and the state-of-the art research on turbulence control to reduce skin friction

 

NA7000859 Advanced analysis theory of ship propulsion

Gain a broad understanding of the two-dimensional, three-dimensional wing theory and the basic theory for propeller design

 

NA7000860 Risk Assessment and Management

This course concentrated on the Quantified Risk Assessment (QRA) for offshore installations has become a key issue in the management of Safety, Health and Environment in the oil and gas industries. The QRA is seen as a vehicle to gain extended flexibility with respect to the achievement of an acceptable safety standard in offshore smart operations. Possible QRA models are still developed and updated for concept improvement and optimization of design and operation. Specificly, this course attempts to provide and learn the state-of-the-art with respect to modelling in fire and explosion QRA studies for offshore installation (FLNG/FPSO, etc.) and operation for improving design and solving safety problems

 

NA7300121 Advanced Theory of Ship Structural Design

- Understand the characteristics of the hull structure and acquire basic major knowledge to determine the ship hull scantling using theories of structural mechanics

- Discuss design verification and improvement of the initial design

 

NA7300192 Advanced Measurement and Signal Processing

This lecture covers the theory of signal processing, which forms the foundation for ship condition monitoring and equipment diagnostics in naval architecture and marine engineering. It provides an in-depth treatment of topics ranging from time–frequency domain relationships to signal processing, measurement methodologies, and vibration/acoustic signal measurement—the most readily accessible physical quantities for diagnostics.

 

NA7300713 Advanced Theory of Mechanical Behavior of Materials

For the safe, reliable and economical design of machines, vehicles, and structures, efficient use of engineering materials and avoid of structural failure are essential. This course offers deformation, elastic and plastic theory to understand the mechanical behavior of the materials, with special attention to deformation, fracture, and fatigue.

 

NA7400002 Advanced Application of Ship and Offshore Structures

Experience of ship and offshore plant practitioners and on-site data are used to learn about practical and research application plans

 

NA7400576 Introduction to Flow-induced Vibration

The main objective of this course is to study how to analyze flow-induced vibrations(FIV) caused by the interaction between fluids and structures. Marine renewable technologies generating power utilizing the FIV will be discussed in the class, as well.

NA7500551 Advanced Theory of Limit State Design

- Provide a deep understanding of limit state design concepts and principles for eco-friendly ships and offshore installations

- Discuss the advanced limit state design practices and challenges for eco-friendly ships

 

NA7500552 Impact Engineering

This course concentrated on the impact/dynamic pressure behavior of green ships and offshore structures and, in particular, beams, plates, shells with newly applicable green fuels (LNG, LH2, H2 etc.) and advanced composite materials. Most complex engineering systems are constructed largely of these simple structural members so that an understanding of their response is an essential prerequisite for revealing the dynamic behavior of a more complex system. On successfully completing the course unit, students will able to understand impact / dynamics structural behavior and apply the knowledge to analyze ships and offshore structures under extreme and accidental events.

 

NA7500553 Safety Design Engineering

This course concentrated on principles, industry practices and evolutionary methodologies for advanced safety studies, which are helpful in effectively managing volatile, uncertain, complex, and ambiguous (VUCA) environments within the framework of quantitative risk assessment and management and associated with the safety and resilience of structures and infrastructures with tolerance against various types of extreme conditions and accidents. Advanced computational models that are highly nonlinear and non-Gaussian in association with multiple physical processes, multiple scales, and multiple criteria study with probabilistic scenario selection practices and applications for smart safety design engineering.

 

NA7500554 Information Communication Technology in Ship and Offshore

The goal of the course is to improve the theory and practical skills of ICT technology required for the shipbuilding and marine industry. This course teaches ICT skills necessary for autonomous ships, offshore plants, and smart shipyards.

 

NA7500555 Hyper-connectivity and Super-intelligence in Ship and Offshore

Course objectives are to create new values and creative convergence human resources for the shipbuilding and offshore industry through education of essential technologies that make up eco-friendly and smart ships.

 

NA7500557 Ship Maneuverability and Control  

To assess the maneuverability of a ship, and apply the automatic control method. To design an autonomous ship is the final goal.

These results can be applied to navigation automation, prevention of collision, safety at harbor traffics.

 

NA7500558 Ship Vibration Control

Ship vibration induced by propulsion system, machinery, and ocean environment is objectionable when it results in 1) excessive stresses on structural and mechanical components, 2) adverse effects on reliability or serviceability of machines and equipment, 3) adverse comments from crew and passengers on vibration that interferes with duties or reduce comfort, and 4) adverse effects to marine lives due to underwater radiated noise by ship vibration. Hence, vibration reduction and control technology are one of the key technologies to build an eco-friendly high-quality ship. This subject aims to study practical and advanced technology to be applicable for low vibration design of ship and offshore structures including machinery.

 

NA7500559 Theory of High Efficiency Propulsion System

Understanding the composite systems of eco-friendly propulsion and principles of energy saving devices

 

NA7500560 Theory of Elasticity

1. Briefly review of the basic concept of stress and strain and overall solid mechanics.

2. The basics of elastic material behavior starting from simple load cases, uniaxial tension, pure shear and hydrostatic compression.

3. Several governing equations such as equilibrium equations, stress-strain compatibility equations and constitutive equations that are essential to show the mechanical behavior will be lectured.

4. The finite element method that calculates displacement of complex structures caused by load using numerical method. Several ways to apply the finite element in practice will be learned.

 

NA7500561 Theory of Plasticity

1. Briefly review of the mathematical fundamentals, in particular tensor algebra and analysis.

2. The phenomenology of plastic deformation, plasticity in micro-structural perspective based on crystal plasticity and various examples of plastic deformation such as metals, wood, and composite materials.

3. The general theory of yield condition, the flow rule, and the hardening rule are learned.

4. The finite element method, implicit and explicit integration of plasticity constitutive equations and implementation of the constitutive equations are learned through commercial code ABAQUS.

 

NA7500562 Advanced Theory of Fatigue and Fracture

Based on the fatigue and fracture phenomena in engineering materials, this lecture aims to learn fundamental theories in fatigue and fracture mechanics.

 

NA7500563 Particle Dynamics of Continuum

 

This course introduces particle-based discretizations for continuum dynamics and their simulation techniques, with an emphasis on challenging marine systems where strong coupling and large deformations appear. We discuss formulations (e.g., SPH-style ideas and related particle schemes), stability and consistency, and strategies for numerical coupling among fluids, structures, and energy systems. Teams explore advanced scenarios relevant to ships, offshore plants, and ocean-energy devices

 

NA7500565 Marine Hydrodynamics

The purpose of the course is to study the theory and numerical methodology to analysis and design the hydrodynamic and station keeping performance of the offshore platform for the production of crude oil·natural gas·renewable energy in the ocean environment.

 

NA7500566 Physical Modeling of Ocean Engineering

Based on the theory of analyzing the hydrodynamic characteristics of marine structures to produce crude oil, gas, and renewable energy in the ocean, theory learning and practice to expand into actual phenomena through experiments and analysis

NA7500567 Thermal Systems Engineering

The main objective of this course is to study the ability of the analysis and the understanding of the physical phenomena and the advanced theories for the heat transfer and the energy conversion for the design, production and operation of the thermal system in the field of the ship and offshore plant. Therefore, the composite material-thermal circuit, the analytic method for the heat transfer in the boundary layer, the inner and external convective heat transfer, phase change and evaporation, radiation are educated. Eventually, the mathematical modeling and analytic method for the basic thermal system of the ship and offshore plant, cryogenic fuel reservoir, and the thermal system design are trained and educated.

 

NA7500568 Viscous Flow Theory

The main objective of this course is to study the viscous flow as a core theory for the energy saving and the structure stability by the supersession of the fluid forces exerting on the ships and offshore structures. The characteristics of the boundary layer and the derivation of the boundary layer equations are studied. The analytic methods and the mathematical modeling of the viscous flow according to the structure shape are studied. The turbulent boundary layer and the resistance by the understanding of the turbulence production and dissipation are studded. Eventually, the ability to design the energy saving ships and propulsion system is educated.

 

NA7500569 Electrochemistry

Understand of electrochemical theory to fuel cell system for the application of naval architecture and ocean engineering and acquire knowledge through application examples.

 

NA7500570 Multibody Dynamics

The main objective of this course is to study how to analyze the dynamic behavior of interconnected rigid bodies. The design of energy systems consisted of multibody will be discussed in the class, as well.

 

NA7500572 Advanced Theory of Offshore Installations

- Understand advanced technologies for structural design and performance evaluation for offshore energy development

- Discuss advances and challenges in the offshore energy systems

 

NA7500746 Internship in Naval Architecture and Ocean Engineering

The ability to conduct research by major in graduate courses in shipbuilding and marine engineering is cultivated by universities, research institutes, and companies at home and abroad through internships or hands-on practices.

 

NA7600752 Floating body dynamics

- Basic knowledge of motion responses of floating bodies such as ships/offshore platforms in the ocean

- Understanding of Boundary Element Method (BEM) for the motion analysis of the floating body.

- Design of offshore units and global performance analysis

 

NA7600753 Advanced Seakeeping and Maneuvering

- Motion equations of ship

- Maneuvering theory and experiments

- Fluid mechanics and water waves

- Seakeeping theory and experiments

 

NA7600755 Advanced theory in smart welding and joining technology  

- Advanced welding and joining technology for smart yard

 

NA7600877 Advanced Smart Ship Control Technology

Recently, as interest in the 4th industry has increased, attention on smart ship-related technologies is also increasing. This course intends to give an in-depth lecture on recently developed or applied technologies related to smart ship autonomous control and condition monitoring, and examines the possibilities of practical use and their limitations.

 

NA7700087 PBL on Special topics in smart yard technology

- PBL for Smart Shipyard Technology in the Fourth Industrial Revolution