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Department of Electrical and Information Engineering
Name
Dohoon Kwon
MAJOR
Power system
TEL
02-970-6365
E-mail
dohoonkwon@seoultech.ac.kr
Biography
◾ Ph.D. in Electrical and Computer Engineering (2018.02), Seoul National University, Seoul, Korea
◾ M.S. in Electrical and Computer Engineering (2012.08), Seoul National University, Seoul, Korea
◾ B.S. in Electrical Engineering (2010.02), Seoul National University, Seoul, Korea
Careers
◾ Senior Researcher - Advanced Power Grid Research Center, Korea Electrotechnology Research Institute (KERI), Uiwang, Republic of Korea (2018.03 ~ 2020.01)
Research Areas
◾ High Voltage Direct Current (HVDC) modeling & control
◾ Power System modeling, control, and operation
◾ Smart Grid
◾ Energy Storage System (ESS)
Teaching
◾ Power System Analysis and Design
◾ Power Generation Engineering
◾ Renewable Energy
◾ Optimal Data-driven Control Strategy of HVDC-linked Power System
Journal Papers
◾ A Coordinated Control Strategy of MT-HVDC Grids to Reduce Real-Time Frequency Deviations by Considering Malfunction of Converter, IEEE ACCESS, vol.12 pp.12356~12369, 2024권도훈
◾ Real-Time Coordinated Control of a Grid-VSC and ESSs in a DC Distribution System for Total Power Loss Reduction Considering Variable Droop Using Voltage Sensitivities, IEEE ACCESS, vol.11 pp.8293~8300, 2023권도훈
◾ A New Communication-free Grid Frequency and AC Voltage Control of Hybrid LCC-VSC-HVDC Systems for Offshore Wind Farm Integration, IEEE TRANSACTIONS ON POWER SYSTEMS, vol.38 No.2 pp.1309~1321, 2022권도훈
◾ Analyses and Comparisons of Generic and User Writing Models of HVDC System Considering Transient DC Current and Voltages, Energies, 2021권도훈
◾ Optimal Secondary Control to Suppress Voltage Fluctuations in an HVDC-linked Wind Farm Grid, IEEE TRANSACTIONS ON POWER SYSTEMS, 2021권도훈
◾ DC Current and Voltage Droop Control Method of Hybrid HVDC Systems for an Offshore Wind Farm Connection to Enhance AC Voltage Stability, IEEE Transaction on Energy Conversion, vol.36 No.1 pp.468~479, 2021권도훈
◾ Optimal DC Voltage and Current Control of an LCC HVDC System to Improve Real-Time Frequency Regulation in Rectifier- and Inverter-Side Grids, IEEE TRANSACTIONS ON POWER SYSTEMS, vol.35 No.6 pp.4539~4553, 2020권도훈
◾ Method for Determining the Droop Coefficients of Hybrid Multi-Terminal HVDC Systems to Suppress AC Voltage Fluctuations, IEEE TRANSACTIONS ON POWER SYSTEMS, vol.35 No.6 pp.4944~4947, 2020권도훈
◾ Optimal Data-Driven Control of an LCC HVDC System for Real-Time Grid Frequency Regulation, IEEE ACCESS, vol.8 pp.58470~58482, 2020권도훈
◾ Modeling and Analysis of an LCC HVDC System Using DC Voltage Control to Improve Transient Response and Short-Term Power Transfer Capability, IEEE TRANSACTIONS ON POWER DELIVERY, vol.33 No.4 pp.1922~1933, 2018권도훈
Conference Papers
◾ Haesong Cho, Sung-Wook Yi, Do-Hoon Kwon, Analysis of Power network Stabilities Considering the Uncertainty of Large Renewable Power Generations, The 23rd International Conference on Control, Automation and Systems (ICCAS 2023), Yeosu Venezia Hotel, 2023권도훈
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