Power Infrastructure
Prognostics & Diagnostics
The main features of modern power grids include 1) the increasing use of inverter-based distributed resources to supply environmentally friendly power and 2) the shift towards direct current (DC) to enhance power supply efficiency. It is anticipated that new forms of inverter-based and hybrid AC/DC power grids will be developed. Technologies capable of analyzing such complex modern power grids are essential. Our laboratory researches technologies that can analyze both the steady-state and transient-state of modern power grids.
Stage 1
Fault
Localization
Stage 2
Health Monitoring
Stage 3
Remaining
Useful Life Prediction
Dynamic
Line Rating
Time Series
Forecasting Using A.I
Stage 1
Fault Localization
Real-time detection of fault locations in power cables and pipelines through signal injection without power outages.
This enabling efficient repair and replacement.
Time Series Forecasting Using A.I
Real-time detection of fault locations in power cables and pipelines through signal injection without power outages.
This enabling efficient repair and replacement.
Dynamic Line Rating
Regardless of the length of the grid, inspect the condition of the object without interruption of the facility This increases the possibility of preventive maintenance.
Stage 3
Remaining Useful Life Prediction
Regardless of the length of the grid, inspect the condition of the object without interruption of the facility This increases the possibility of preventive maintenance.
Stage 2
Health Monitoring
Regardless of the length of the grid, inspect the condition of the object without interruption of the facility This increases the possibility of preventive maintenance.
