Improve Power Generation Forecasting by Neural Networks &
Time Series Forecasting
The Challenge
A wind farm in Europe, supplying power to the electric grid was having a high margin of error of 30% in its output prediction, resulting in high penalty to the grid. ( Errors greater than 10% incurred a penalty ). They needed an improved weather and wind prediction model, to reduce the error in their power output prediction.
Hypothesis
- Studying and analyzing Farm Topology, Hyper Local sensors at wind farms, Other Climate Phenomena.
- Data from global climatology phenomenon like El Niño (raw weather information at a global level)
Execution
- Develop a robust forecasting engine using Machine learning techniques on attained data sets.
- Use it to produce base model that recognizes & evaluates multiple models with hyper local weather sensors and other climate phenomena, delivering both efficiency and higher accuracy in output prediction.
Outcomes
- Developed forecasting engine with increased accuracy to power generation.
- 70% reduction in the potential penalty.
Project Highlights
Error rate brought down from