주요약력2013.01: 한국해양대학교 항해학부 졸업 (공학사, 선박운항관리전공) 2020.08: 한국해양대학교 항해학과 졸업 (공학석사, 해사기술안전전공) 2022.11: 영국 University of Strathclyde, Department Of Naval Architecture, Ocean & Marine Engineering 졸업 (공학박사, PhD in Ocean Engineering)
주요연구분야
선박 유도항법제어(Guidance, Navigation, Control) 선박 운동 및 조종 선박 복원성(손상 복원성, 비손상 복원성) 액화천연가스(LNG) 화물관리 전산유체역학(CFD) 시뮬레이션(해양부유체 운동/조종, 가스 누출)
○ 주요논문(1저자 또는 교신저자) 1. Zhang, M., Kim, D., Tezdogan, T., & Yuan, Z. M. (2024). Time-optimal control of ship manoeuvring under wave loads. Ocean Engineering, 293, 116627. (SCIE, JCR <10%) 2. Song, S., Kim, D., & Dai, S. (2024). CFD investigation into the effect of GM variations on ship manoeuvring characteristics. Ocean Engineering, 291, 116472. (SCIE, JCR <10%) 3. Kim, D., Yim, J., Song, S., Park, J. B., Kim, J., Yu, Y., ... & Tezdogan, T. (2023). Path-following control problem for maritime autonomous surface ships (MASS) in adverse weather conditions at low speeds. Ocean Engineering, 287, 115860. (SCIE, JCR <10%) 4. Song, S., Kim, D., Demirel, Y. K., & Yang, J. (2023). An advanced prediction method of ship resistance with heterogeneous hull roughness. Ocean Engineering, 279, 114602. (SCIE, JCR <10%) 5. Kim, D., Zhang, M., & Yim, J. (2023). Optimal Route Planning for Maritime Autonomous Surface Ships Using a Nonlinear Model Predictive Control. Journal of Navigation and Port Research, 47(2), 66-74. 6. Kim, D., Lee, C., & Yim, J. (2023). An Evaluation Technique for the Path-following Control Performance of Autonomous Surface Ships. Journal of Navigation and Port Research, 47(1), 10-17. 7. Kim, D., Song, S., Turnock, S., & Tezdogan, T. (2023). Nonlinear URANS model for path-following control problem towards autonomous marine navigation under wave conditions. Ocean Engineering, 270, 113681. (SCIE, JCR <10%) 8. Kim, D., Yim, J., Song, S., Demirel, Y. K., & Tezdogan, T. (2022). A systematic investigation on the manoeuvring performance of a ship performing low-speed manoeuvres in adverse weather conditions using CFD. Ocean Engineering, 263, 112364. (SCIE, JCR <10%) 9. Kim, D., Tezdogan, T., & Incecik, A. (2022). A high-fidelity CFD-based model for the prediction of ship manoeuvrability in currents. Ocean Engineering, 256, 111492. (SCIE, JCR <10%) 10. Kim, D., Tezdogan, T., & Incecik, A. (2022). Hydrodynamic analysis of ship manoeuvrability in shallow water using high-fidelity URANS computations. Applied Ocean Research, 123, 103176. (SCIE, JCR <10%) 11. Kim, D., & Tezdogan, T. (2022). CFD-based hydrodynamic analyses of ship course keeping control and turning performance in irregular waves. Ocean Engineering, 248, 110808. (SCIE, JCR <10%) 12. Kim, D., Song, S., Sant, T., Demirel, Y. K., & Tezdogan, T. (2022). Nonlinear URANS model for evaluating course keeping and turning capabilities of a vessel with propulsion system failure in waves. International journal of naval architecture and ocean engineering, 14, 100425. 13. Kim, D., Song, S., Jeong, B., Tezdogan, T., & Incecik, A. (2021). Unsteady RANS CFD simulations of ship manoeuvrability and course keeping control under various wave height conditions. Applied Ocean Research, 117, 102940. (SCIE, JCR <10%) 14. Kim, D., Song, S., Jeong, B., & Tezdogan, T. (2021). Numerical evaluation of a ship's manoeuvrability and course keeping control under various wave conditions using CFD. Ocean Engineering, 237, 109615. (SCIE, JCR <10%) 15. Kim, D., Song, S., & Tezdogan, T. (2021). Free running CFD simulations to investigate ship manoeuvrability in waves. Ocean Engineering, 236, 109567. (SCIE, JCR <10%)
연구업적검색서비스
담당자 : 조교
전화 : 051-410-4270[항해융합학부]
업데이트 : 2021-03-02