The estimation of energy demand (by power plants) has traditionally relied on historical energy use data for the region(s) that a plant produces for. Regression analysis, artificial neural network and Bayesian theory are the most common approaches for analysing these data. Such data and techniques do not generate reliable results. Consequently, excess energy has to be generated to prevent blackout; causes for energy surge are not easily determined; and potential energy use reduction from energy efficiency solutions is usually not translated into actual energy use reduction. The paper highlights the weaknesses of traditional techniques, and lays out a framework to improve the prediction of energy demand by combining energy use models of equipment, physical systems and buildings, with the proposed data mining algorithms for reverse engineering. The research team first analyses data samples from large complex energy data, and then, presents a set of computationally efficient data mining algorithms for reverse engineering. In order to develop a structural system model for reverse engineering, two focus groups are developed that has direct relation with cause and effect variables. The research findings of this paper includes testing out different sets of reverse engineering algorithms, understand their output patterns and modify algorithms to elevate accuracy of the outputs.
Details
- Learning Energy Consumption and Demand Models Through Data Mining for Reverse Engineering
- Naganathan, Hariharan (Author)
- Chong, Oswald (Author)
- Ye, Long (Author)
- Ira A. Fulton School of Engineering (Contributor)
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Digital object identifier: 10.1016/j.proeng.2015.11.392
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Identifier TypeInternational standard serial numberIdentifier Value1877-7058
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Naganathan, H., Chong, W. K., & Ye, N. (2015). Learning Energy Consumption and Demand Models through Data Mining for Reverse Engineering. Procedia Engineering, 118, 1319-1324. doi:10.1016/j.proeng.2015.11.392