Experienced engineer with 4+ years of experience as maintenance engineer and machine designer. Practical knowledge in factory utility maintenance, water treatment, steam system, machine automation, machine design, and CAD software. Responsible professional with good work ethic and willingness to learn.
2022年2月 - 2024年2月
Master's degree 碩士
Electrical Engineering 電機工程- Power System Simulation, GPA 4.08/4.3
Research: Power Hardware-in-the-Loop
2011年8月 - 2015年8月Bachelor's degree 大學
Swiss German University (in Indonesia)
Mechanical Engineering - Mechatronics Concentration 機電一體化, GPA 3.41/4.0
2020年4月 - 2022年1月
2015年10月 - 2018年8月
Constantine, J. (2024). New Power Interface Based on Multi-Dimensional Golden Section Search Algorithm for Power-Hardware-in-the-Loop Applications. IEEE Access, vol. 12, pp. 14487-14498.
Power Hardware-in-the-Loop
Power Hardware in the Loop (PHIL) is a testing method that involves connecting real power hardware, such as inverters, to a simulated power system using tools like MATLAB Simulink and Opal-RT. This allows for real-time testing and validation of power systems, ensuring their reliability and efficiency in a controlled environment before implementation.
Experienced engineer with 4+ years of experience as maintenance engineer and machine designer. Practical knowledge in factory utility maintenance, water treatment, steam system, machine automation, machine design, and CAD software. Responsible professional with good work ethic and willingness to learn.
2022年2月 - 2024年2月
Master's degree 碩士
Electrical Engineering 電機工程- Power System Simulation, GPA 4.08/4.3
Research: Power Hardware-in-the-Loop
2011年8月 - 2015年8月Bachelor's degree 大學
Swiss German University (in Indonesia)
Mechanical Engineering - Mechatronics Concentration 機電一體化, GPA 3.41/4.0
2020年4月 - 2022年1月
2015年10月 - 2018年8月
Constantine, J. (2024). New Power Interface Based on Multi-Dimensional Golden Section Search Algorithm for Power-Hardware-in-the-Loop Applications. IEEE Access, vol. 12, pp. 14487-14498.
Power Hardware-in-the-Loop
Power Hardware in the Loop (PHIL) is a testing method that involves connecting real power hardware, such as inverters, to a simulated power system using tools like MATLAB Simulink and Opal-RT. This allows for real-time testing and validation of power systems, ensuring their reliability and efficiency in a controlled environment before implementation.