| Proj No. | A1125-251 |
| Title | Development of a High-Frequency, High-Efficiency Multi-Input Single-Output Converter with AI-Assisted Control for Offshore Photovoltaic Systems |
| Summary | Offshore photovoltaic (PV) generation is crucial for harnessing marine resources. However, the low voltage and power output of individual PV panels make it challenging to meet load demands. A promising solution is a multi-input single-output (MISO) converter that aggregates power from multiple panels. This project will develop a switched-capacitor-based MISO converter, incorporating an AI-driven power/current sharing strategy to optimize system performance. The selected student will work alongside research staff and a postgraduate student to design the circuit and investigate advanced AI control methods. The final outcomes will be validated through simulations and experimental testing. |
| Supervisor | Ast/P Yang Yun (Loc:S2 > S2 B2C > S2 B2C 105, Ext: +65 67905406) |
| Co-Supervisor | - |
| RI Co-Supervisor | - |
| Lab | Water & Energy Research Laboratory (Loc: S2.1-B3-03) |
| Single/Group: | Single |
| Area: | Electrical Power and Energy |
| ISP/RI/SMP/SCP?: |