Temporal forecasting by converting stochastic behaviour into a stable pattern in electric grid
The malfunction variables of power stations are related to the areas of weather, physical structure, control, and load behavior. To predict temporal power failure is difficult due to their unpredictable characteristics. As high accuracy is normally required, the estimation of failures of short-term temporal prediction is highly difficult. This study presents a method for converting stochastic behavior into a stable pattern, which can subsequently be used in a short-term estimator. For this conversion, K-means clustering is employed, followed by long-short-term memory and gated recurrent unit algorithms are used to perform the short-term estimation. The environment, the operation, and the generated signal factors are all simulated using mathematical models. Weather parameters and load samples have been collected as part of a dataset. Monte-Carlo simulation using MATLAB programming has been used to conduct experimental estimation of failures. The estimated failures of the experiment are then compared with the actual system temporal failures and found to be in good match. Therefore, to address the gap in knowledge for any future power grid estimated failures, the achieved results in this paper form good basis for a testbed to estimate any grid future failures.
History
Refereed
- Yes
Volume
15Page range
4426-4442Publication title
International Journal of System Assurance Engineering and ManagementISSN
0975-6809External DOI
Publisher
Springer Science and Business Media LLCFile version
- Published version
Language
- eng
Item sub-type
Journal ArticleOfficial URL
Affiliated with
- Faculty of Science & Engineering Outputs