Department of Mechanical Engineering s6

Department of Naval Architecture and Ocean Engineering

♣ Homepage : http://naoe.inha.ac.kr

Office : 2N491A Tel : +82-32-860-7330 Fax : +82-32-864-5850

1. Introduction As Korea has become the leading global shipbuilding and offshore construction country in the world, the Department of Naval Architecture and Ocean Engineering of Inha University has been recognized as one of the top educational organizations in the related fields in Korea. The department has rich facilities including circulating water channels, high speed towing tank, structural test equipment, next generation CAD system with supporting hardware and specialized software that can provide the students with broad and wide learning opportunities to be prepared and qualified for the advance researches and the professions of the leading industries. Also there are several scholarship programs available for students from various resources including government projects from BK21, KETEP, KIMST and also from industries; Korean Air, DSME, etc..

2. Major Naval Architecture and Ocean Engineering

3. Faculty Members 1) Lee, Young-Gill (이영길) * Office: 2N489 * Tel: +82-32-860-7340 * E-mail: [email protected] * Homepage: http:// iws.inha.ac.kr/~younglee

* Educational Background: - Ph.D: Naval Architecture & Ocean Engineering/ The University of Tokyo / Japan - M.S.: Naval Architecture /Inha University / Korea

Naval Architecture and Ocean Engineering -11

* Research Area: Computational Fluid Dynamics, Nonlinear Free-surface Waves, Numerical Analysis of Flow Fields around Ship and Ocean Structure, Viscous Flow, Ship Resistance & Hull Form Design

* Academic Works: - " Numerical simulation of the Free Surface around a Circular Column in Regular Waves using Modified Maker-Density Method", International Journal of Naval Architecture and Ocean Engineering, Vol. 7, No. 3, pp. 610~625, 2015.5. - “Numerical Simulations of Two-dimensional Floating Breakwaters in Regular Waves using Fixed Cartesian Grid”, International Journal of Naval Architecture and Ocean Engineering, Vol. 6, No. 2, pp. 206~218, 2014.6. - “A Numerical Simulation Method for Free Surface Flows near a Two-dimensional Moving Body in Fixed Rectangular Grid System”, Ocean engineering, Vol. 59, pp. 285~295, 2013.2. - “The marker-density method in Cartesian grids applied to nonlinear ship waves”, Computers and Fluids, Vol. 63, pp. 57~69, 2012.6. - “Numerical simulation of three-dimensional sloshing phenomena using a finite difference method with marker-density scheme”, Ocean engineering, Vol. 38, pp. 206~225, 2011.1.

2) Kim, Kyung-Su (김경수) * Office: 2N683 * Tel: +82-32-860-7341 * E-mail: [email protected] * Homepage: http://fatigue.inha.ac.kr/ * Educational Background: - Ph.D: Structural Mechanics / Aachen University of Technology / Germany - M.S.: Naval Architecture & Ocean Engineering / Aachen University of Technology / Germany * Research Area: Fatigue and Fracture * Academic Works: - Fatigue Strength Assessment of High manganese Steel for LNG CCS, Journal of the Society of Naval Architects of Korea, Vol. 51, No. 3, pp. 246~253, 2014. - A New Fatigue Prediction Model for Marine Structures Subject to Wide Band Stress Process, Ocean Engineering, Vol. 76, pp. 144~151, 2014. - An Experimental Study on Fatigue Performance of Cryogenic Metallic Materials for IMO Type B Tank, International Journal of Naval Architecture and Ocean Engineering, Vol. 5, No. 4, pp. 580~597, 2013. - An Experimental Study on Fatigue Life Evaluation of Welded Joints under Storm Loading,

Journal of the Society of Naval Architects of Korea, Vol. 49, No. 1, pp. 99~108, 2012.

3) Jo, Chul-Hee (조철희) * Office: 2N490 * Tel: +82-32-860-7342 * E-mail: [email protected] * Homepage: http:/ / oelab.naoe.inha.ac.kr * Educational Background: - Ph.D: Ocean Engineering/Texas A&M University/USA - M.S.: Ocean Engineering/Stevens Institute of Technology/USA * Research Area: Offshore/Port Structure Design, FPSO/Buoy Mooring, Riser, Subsea Pipeline, Ocean Energy, Tidal Current Power * Academic Works: - Investigation of jetting system of the spudcan to ease extraction in clayey soils, Journal of Renewable and Sustainable Energy, No.6, 2014 - A comparison of dynamic analysis for the flexible riser in shallow water, Journal of Korean Society of Coastal Disaster Prevention, Vol.1, No.4, pp.149-155, 2014 - Numerical study about influence variables of permafrost pipeline by using thermal flow analysis, Trans. of the Korean Hydrogen and New Energy Society, Vol.25, No.4, pp.443-448, 2014 - Analysis of the characteristics of PMSG tidal current power generation system using PMSG and water tunnel, Applied Mechanics and Materials, Vol.9, No.1, pp.44-50, 2014

4) Lee, Kyung-Ho (이경호) * Office: 2N681 * Tel: +82-32-860-7343 * E-mail: [email protected] * Homepage: http://ideal.inha.ac.kr * Educational Background: - Ph.D: Department of Naval Architecture and Ocean Engineering/ Seoul National University/ KOREA-1998 - M.S.: Department of Naval Architecture and Ocean Engineering/ Seoul National University/ KOREA-1990 * Research Area: Intelligent System in Ship Design, Ubiquitous Computing Applications (AR, RFID, USN etc), Ship PLM(Product Lifecycle Management), Simulation-based Design * Academic Works:

- Development of Data Miner for the Ship Design based on Polynomial Genetic Programming, LECTURE NOTES IN ARTIFICIAL INTELLIGENCE, Vol.4304, 2006 - Research into the Development of HLA-based Ship Safety Assessment Simulation with Systems Engineering, Journal of Ocean Engineering and Technology, Vol.22, No.3, 2008 - Development Technology of Vision Based Augmented Reality for the Maintenance of Products, Trans. of the society of CAD/CAM Engineers, Vol.13, No.4, 2008

5) Kim, Sang-Hyun (김상현) * Office: 2N486 * Tel: +82-32-860-7344 * E-mail: [email protected] * Homepage: http://mscl a b.naoe.inha.ac.kr * Educational Background: - Ph.D: Naval Architecture & Ocean Engineering/ University of Tokyo / Japan - M.S.: Naval Architecture & Ocean Engineering / University of Tokyo / Japan * Research Area: Ship Motion and Maneuvering, High-speed craft control system, Underwater vehicle(robot) control system, Solar hydrofoil craft control system * Academic Works: - A Study on the Effects of High-lift Rudder on Ship's Maneuverability, Journal of the Korean Society of Marine Environment & Safety, 2010. 12 - Algorithms to control the moving ship during harbour entry, APPLIED MATHEMATICAL MODELLING, 2009. 05 - A study on the position control system of the small ROV using sonar sensors, Journal of SNAK, 2008 - A study on the docking algorithm for underwater-docking of an AUV using visual guidance device, Journal of ocean engineering and technology, 2007. 6

6) Lee, Jang-Hyun (이장현) * Office: 2N682 * Tel: +82-32-860-7345 * E-mail: [email protected] * Homepage: http:/ / ems.inha.ac.kr * Educational Background: - Ph.D: Department of Naval Architecture and Ocean Engineering/ Seoul National University/ KOREA - M.S.: Department of Naval Architecture and Ocean Engineering/ Seoul National

University/ KOREA * Research Area: Ship Production System Engineering, e-Manufacturing, PLM(Product Lifecycle Management), Computational Welding Mechanics, Hull Plate Forming (Flame Bending and Continuous Press Forming), Naval Ship Survivability Assessment, Sloshing Assessment of LNG Cargo Containment System, Pleasure Boat Design & Structural Analysis, Human Computer Interaction for Ship Design and Production * Academic Works: - Simplified vulnerability assessment procedure for a warship based on the vulnerable area approach, JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, 26(7), 2171~2181, 2012. - Integration of evolutional BOMs for design of ship outfitting equipment, COMPUTER-AIDED DESIGN, 44, 253~273, 2012. - Localization between Curved Shell Plate and Its Unfolded Shape in Different Coordinate Systems for Ship-Hull Plate Forming, MATHEMATICAL PROBLEMS IN ENGINEERING, 2011-1, 1~15, 2011. - Springback adjustment for multi-point forming of thick plates in shipbuilding, COMPUTER- AIDED DESIGN, 42, 1001~1012, 2010.

7) Choung, Joonmo(정준모) * Office: 2N689 * Tel: +82-32-860-7346 * E-mail: [email protected] * Homepage: http://sose.inha.ac.kr * Educational Background: - Ph.D: Ocean Engineering/University of Ulsan/Korea - M.S.: Naval Architecture/Inha University/Korea * Research Area: Design of mooring lines of floating-type offshore wind turbine; Fatigue design of various offshore plants; Metal plasticity based on micro/nano mechanics; Strain rate verification based on high speed tensile tests; Plastic fracture of steel; Collision and grounding simulations of ships and offshore structures; Buckling & ultimate strengths of ship and offshore structures; Shaft alignment of commercial vessels * Academic Works: - Joonmo Choung*, Ji-Myung Nam, Gokhan Tansel Tayyar. 2014. Residual ultimate strength of a very large crude carrier considering probabilistic damage extents, International Journal of Naval Architecture and Ocean Engineering, 6, 14-26.

- Joonmo Choung, Jun-Bum Park, Chang Yong Song*. 2014. Lateral pressure effect on average compressive strength of stiffened panels for in-service vessels. Ships and Offshore Structures, 110-118. - Jun-Bum Park, Joonmo Choung*, Kyung-Su Kim, 2014. A new fatigue prediction model for marine structures subject to wide band stress process. Ocean Engineering, 76, 144-151. - Joonmo Choung*, Jae-Yik Lee, 2013. Dynamic Hardening Behaviors of Various Marine Structural Steels Considering Dependencies on Strain Rate and Temperature. Marine Structures, 32, 49-67. - Joonmo Choung*, 2013. Effective Arrangement of Hydraulic Top Bracing Based on Idealized Load Carrying Mechanism. Ocean Engineering, 58, 252-259. - Joonmo Choung*, Chun-Sik Shim, Ha-Cheol Song, 2012. Estimation of failure strain of EH36 high strength marine structural steel using average stress triaxiality. Marine Structures, 29, 01-21. - Joonmo Choung*, Ji-Myung Nam, Tae-Bum Ha, 2012. Slenderness ratio distribution and load-shortening behaviors of stiffened panels. Marine Structures, 26, 42-57. - Joonmo Choung*, Ji-Myung Nam, Tae-Bum Ha, 2012. Assessment of residual ultimate strength of an asymmetrically damaged tanker considering rotational and translational shifts of neutral axis plane, Marine Structures, 25, 71-84.

8) KOO, Weon Cheol(구원철) * Office: 하-1501 * Tel: +82-32-860-7348 * E-mail: [email protected] * Homepage: http://hydro.inha.ac.kr * Educational Background - Ph.D : Ocean Engineering/Texas A&M University/USA - M.S. : Ocean Engineering/Texas A&M University/USA * Research Area: Ocean Engineering, Hydrodynamics, Dynamics of Ocean Structures, Ocean Energy * Academic Works: - Min-Su Park and Weoncheol Koo, 2015. Mathematical Modeling of Partial-Porous Circular Cylinders with Water Waves, MATHEMATICAL PROBLEMS IN ENGINEERING, 2015. - Weoncheol Koo and Jun-Dong Kim, 2015. Simplified formulas of heave added mass coefficients at high frequency for various two-dimensional bodies in a finite water depth, International Journal of Naval Architecture and Ocean Engineering, 7(1), 115-

127. - Mun-Gwan Choi, In-Kyu Park and Weoncheol Koo, 2014. Numerical Prediction of Slamming Impact Loads and Response on a Ship in Waves Considering Relative Vertical Velocity, Journal of the Society of Naval Architects of Korea, 51(6), 503-509. - Ji-Seok Kim, Min-Su Park and Weoncheol Koo, 2014. Numerical Analysis of Hydrodynamic Characteristics for Various Types of Jack-up Legs. Journal of Ocean Engineering and Technology, 28(5), 371-377.

9) Kim, Yooil(김유일) * Office: 2N684 * Tel: +82-32-860-7347 * E-mail: [email protected] * Homepage: http://mdsl.inha.ac.kr * Educational Background - Ph.D : Department of Naval Architecture and Ocean Engineering/Seoul National University/Korea - M.S. : Department of Naval Architecture and Ocean Engineering/Seoul National University/Korea * Research Area: Multidisciplinary coupled analysis, Signal processing, Nonlinear system identification, Fatigue and fracture analysis of ship and offshore structures, General nonlinear structural analysis * Academic Works - Yooil Kim, 2015. Finite memory quadratic Volterra model for the response prediction of a slender marine structure under Morison load, Journal of Fluids and Structures, 56, pp.75- 88 - Yooil Kim, 2014. Prediction of the dynamic response of a slender marine structure under irregular ocean wave using NARX-based quadratic Volterra series, Applied Ocean Research, 49, pp.42-56 - Yooil Kim, Jung-Hyun Kim, Yonghwan Kim, 2014. Time series prediction of nonlinear ship structural responses in irregular seaways using a third-order Volterra model, Journal of Fluids and Structures, 49, 322-337 - Yooil Kim, Sung-Gun Park, 2013. Wet damping estimation of the scaled segmented hull model using the random decrement technique, Ocean Engineering, 75(4), 71-80 - Yooil Kim, 2013. Rapid response calculation of LNG cargo containment system under sloshing load using wavelet transformation, International Journal of Naval Architecture and Ocean Engineering, 5, pp.227-245

- Yooil Kim, Jung-Hyun Kim, Yonghwan Kim, 2013. Whipping identification of a flexible ship using wavelet cross-correlation, Ocean Engineering, 74, pp.90-100 - Yooil Kim, 2013. Rapid response calculation of LNG cargo containment system under sloshing load using wavelet transformation, International Journal of Naval Architecture and Ocean Engineering, 5, pp.227-245

10) Paik, Kwang-Jun(백광준) * Office: 60주년-1102 * Tel: +82-32-860-7331 * E-mail: kwangjun. paik @inha.ac.kr * Homepage: * Educational Background - Ph.D : Mechanical Engineering/University of Iowa/USA - M.S. : Naval Architecture and Ocean Engineering/Pusan National University/Korea * Research Area: Ship resistance and propulsion, Propeller design and analysis, Propeller cavitation and noise, Computational fluid dynamics * Academic Works - Kwang-Jun Paik, Seunghyun Hwang, Jaekwon Jung, Taegu Lee, Yeong-Yeon Lee, Haeseong Ahn, Suak-Ho Van, 2015. Investigation on the wake evolution of contra- rotating propeller using RANS computation and SPIV measurement, International Journal of Naval Architecture and Ocean Engineering, Vol.7, No.3. pp.595-609 - Kwang-Jun Paik, Pablo M. Carrica, 2014. Fluid-structure interaction for an elastic structure interacting with free surface in a rolling tank, Ocean Engineering, Vol.84, pp.201-212 - Bon-Guk Koo, Dong-Woo Park, Kwang-Jun Paik, 2014. A Study on Wave Run-up Height and Depression Depth around Air-water Interface-piercing Circular Cylinder, Journal of the Korean Society of Marine Environment & Safety, Vol.20, No.3, pp.312-317 - Kwang-Jun Paik, Hyung-Gil Park, Jongsoo Seo, 2013. RANS simulation of cavitation and hull pressure fluctuation for marine propeller operating behind-hull condition, International Journal of Naval Architecture and Ocean Engineering, Vol.5, No.4, pp.502- 512 - Kwang-Jun Paik, Jinsuk Lee, Taegu Lee, Tetsuji Hoshino, Hyung-Gil Park, Jongsoo Seo, 2013. Numerical Study on the Effects of Combination of Blade Number for Shaft Forces and Moments of Contra-Rotating Propeller, Journal of the Society of Naval Architects of Korea, Vol.50, No.5, pp.282-289 - Yuwei Li, Kwang-Jun Paik, Tao Xing, Pablo M. Carrica, 2012. Dynamic overset CFD

simulations of wind turbine aerodynamics, Renewable Energy, Vol.37, Iss.1, pp.285-298

4. Course List Major Course Course Credit Taught Code in English Naval NOE5002 Advanced Ship Resistance 1 3 X

Architecture NOE5003 Advanced Ship Resistance 2 3 X NOE5004 Advanced Ship Propulsion 1 3 X NOE5005 Advanced Ship Propulsion 2 3 X NOE5007 Ship Design 1 3 X NOE5008 Ocean Wave Theory 3 X NOE5009 Advanced Theory of Solid 3 X Mechanics NOE5010 Intelligent Optimum Design System 3 O NOE5011 Special issues on System 3 X Engineering NOE5013 Structural Dynamics of Offshore 3 X Structures NOE6001 Computational Fluid Dynamics 3 X NOE6002 Theory of Marine System Motion 3 X NOE6003 Theory of Marine System 3 X Maneuverability NOE6004 Finite Element Method and 3 O Application NOE6005 External Forces on Ocean Structures 3 O NOE6006 Advanced Ship Hydrodynamics 1 3 X NOE6007 Advanced Ship Hydrodynamics 2 3 X NOE6013 Advanced Random Vibration 3 O NOE6014 Reliability Theory of Marine 3 X Structures NOE6015 Dynamics of Offshore Structure with 3 O mooring system NOE7001 Ship Vibration Noise 3 X NOE7003 Ship Design 2 3 X NOE7004 Advanced Research on Ocean 3 X

Engineering NOE7008 Ship Structural Design 3 X NOE7009 Optimization Methods 3 X NOE7010 Major Element Design of Ocean 3 X Structrures NOE7011 Ocean Transportation System 3 X NOE7012 Advanced Theory of Fracture 3 X Mechanics NOE7013 Knowledge Based Design System 3 X NOE7014 Theory of Marine System Control 3 X NOE7015 Ship Design Automation 3 X NOE7016 Manufacturing Information System 3 X for Ship Production NOE7017 Advanced topics of e-Manufacturing 3 X for shipbuildin NOE7019 Practices of Finite element analysis 3 O for ship production NOE7020 Underwater Vehicle System Design 3 X NOE7021 Heat and mass transfer in offshore 3 X plant NOE7022 Structure Mechanics of Marine 3 O Structures NOE7023 Applied structure mechanics 3 O NOE7024 Fatigue Limit State Design of Marine 3 O Structure NOE7025 Accidental Limit State Design of 3 X Marine Structures NOE7026 Ultimate Limit State Design of 3 O Marine Structures NOE7027 Special Topics in NAOE II 3 X NOE7028 Special Topics in NAOE Ⅰ 3 X NOE7029 Advanced Water Wave Mechanics 3 O

5. Others 1) Ship Design Lab. * Homepage: http:// iws.inha.ac.kr/~younglee * Lab address: 2N480D * Tel: +82-32-860-8840

2) Impact & Fatigue Fracture Lab. * Homepage: http://fatigue.inha.ac.kr/ * Lab address: 2N102

* Tel: +82-32-860-8756

3) Ocean Engineering Lab. * Homepage: http://oelab.naoe.inha.ac.kr * Lab address: 2N479C, 2N166 * Tel: +82-32-860-7342

4) Intelligent Design Automation Lab. * Homepage: http://ideal.inha.ac.kr * Lab address: 2N480G * Tel: +82-32-860-8848

5) Marine system Control Lab. * Homepage: http://msclab.naoe.inha.ac.kr * Lab address: 2N480B * Tel: +82-32-860-7344

6) e-Manufacturing & PLM Lab. * Homepage: http://ems.inha.ac.kr * Lab address: 2N480F, 2N480A * Tel: +82-70-7584-7340, +82-70-7583-7340

7) Ship & Offshore Structure Engineering Lab. * Homepage: http://sose.inha.ac.kr * Lab address: 2N480F * Tel: +82-32-860-7346, +82-32-873-7346

8) Multidisciplinary Structural Mechanics Lab. * Homepage: http://mdsl.inha.ac.kr * Lab address: 2N480B * Tel: +82-32-860-7347

9) Applied Marine Hydrodynamics Lab. * Homepage: http://hydro.inha.ac.kr * Lab address: 5W151 * Tel: + 82-32-860-7348

10) Propulsion Hydrodynamics Lab. * Homepage: * Lab address: * Tel: