Abstract
This paper gives and analyses data-driven prediction models for the energy usage of appliances. Data utilized include readings of temperature and humidity sensors from a wireless network. The building envelope is meant to minimize energy demand or the energy required to power the house independent of the appliance and mechanical system efficiency. Approximating a mapping function between the input variables and the continuous output variable is the work of regression. The paper discusses the forecasting framework FOPF (Feature Optimization Prediction Framework), which includes feature selection optimization: by removing non-predictive parameters to choose the best-selected feature hybrid optimization technique has been approached. k-nearest neighbors (KNN) Ensemble Prediction Models for the data of the energy use of appliances have been tested against some bases machine learning algorithms. The comparison study showed the powerful, best accuracy and lowest error of KNN with RMSE = 0.0078. Finally, the suggested ensemble model's performance is assessed using a one-way analysis of variance (ANOVA) test and the Wilcoxon Signed Rank Test. (Two-tailed P-value: 0.0001).
Highlights
Many research studies have been introduced to understand the energy appliances which use in buildings
Lessen power flow into the grid, model predictive control applications where the heaps are required for demand-side management (DSM) and demand-side response (DSR)
The outline of this paper is proposed our framework (Feature Optimization Prediction framework) FOPF discuss its performance compared with different models to predict energy consumption
Summary
Many research studies have been introduced to understand the energy appliances which use in buildings. Many Regression models for energy can be used to comprehend the connections between different factors and evaluate their effect [1]. Prediction models of electrical vitality utilization in structures can be helpful for various applications. Lessen power flow into the grid, model predictive control applications where the heaps are required for demand-side management (DSM) and demand-side response (DSR). It uses to evaluate building performance simulation analysis [2]. The outline of this paper is proposed our framework (Feature Optimization Prediction framework) FOPF discuss its performance compared with different models (linear regression, Artificial Neural Network, and Random Forest) to predict energy consumption
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