Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Hourly prediction of a building's electricity consumption using case-based reasoning, artificial neural networks and principal component analysis
Highlights Artificial neural network (ANN) and case-based reasoning (CBR) models for predicting the hourly electricity consumption of an institutional building are developed. Principal component analysis (PCA) is used to select the significant inputs. The prediction is carried out on an hourly basis, with a horizon of one to six hours. There is no accuracy loss when only the PCA-selected inputs are used. The ANN models consistently outperform the CBR models. Assuming that all input variables have equal impact on the predicted variable in the CBR model – all inputs have an equal weight of 1 – is a valid approach.
Abstract This paper presents the development of simplified, yet accurate models that predict the hourly electricity consumption of an institutional building. The models were developed to facilitate generalization to other buildings, by using readily available measurements of a relatively small number of variables related to the building operation. Measurements from a Canadian institutional facility, along with weather forecast information, were used to develop and validate this approach. Two artificial intelligence techniques, artificial neural networks (ANN) and case-based reasoning (CBR), which mimic the way the human brain processes information and reasons, were used to develop the predictive models. Principal component analysis (PCA) was used to reduce the number of inputs without lowering the model accuracy, by identifying significant variables that contain most of the overall variability present in the dataset. A building operation mode corresponding to office working hours was identified, and ANN and CBR models using these measurements were developed. The prediction was carried out on an hourly basis, with a horizon of 1 to 6h. The predictive performances of the models were compared, and the results revealed that there was no accuracy loss when only the PCA-selected inputs are used. The ANN models consistently outperform the CBR models, achieving errors as low as 7.3%. However, the error of both CBR and ANN models is within the recommended ASHRAE limits.
Hourly prediction of a building's electricity consumption using case-based reasoning, artificial neural networks and principal component analysis
Highlights Artificial neural network (ANN) and case-based reasoning (CBR) models for predicting the hourly electricity consumption of an institutional building are developed. Principal component analysis (PCA) is used to select the significant inputs. The prediction is carried out on an hourly basis, with a horizon of one to six hours. There is no accuracy loss when only the PCA-selected inputs are used. The ANN models consistently outperform the CBR models. Assuming that all input variables have equal impact on the predicted variable in the CBR model – all inputs have an equal weight of 1 – is a valid approach.
Abstract This paper presents the development of simplified, yet accurate models that predict the hourly electricity consumption of an institutional building. The models were developed to facilitate generalization to other buildings, by using readily available measurements of a relatively small number of variables related to the building operation. Measurements from a Canadian institutional facility, along with weather forecast information, were used to develop and validate this approach. Two artificial intelligence techniques, artificial neural networks (ANN) and case-based reasoning (CBR), which mimic the way the human brain processes information and reasons, were used to develop the predictive models. Principal component analysis (PCA) was used to reduce the number of inputs without lowering the model accuracy, by identifying significant variables that contain most of the overall variability present in the dataset. A building operation mode corresponding to office working hours was identified, and ANN and CBR models using these measurements were developed. The prediction was carried out on an hourly basis, with a horizon of 1 to 6h. The predictive performances of the models were compared, and the results revealed that there was no accuracy loss when only the PCA-selected inputs are used. The ANN models consistently outperform the CBR models, achieving errors as low as 7.3%. However, the error of both CBR and ANN models is within the recommended ASHRAE limits.
Hourly prediction of a building's electricity consumption using case-based reasoning, artificial neural networks and principal component analysis
Platon, Radu (Autor:in) / Dehkordi, Vahid Raissi (Autor:in) / Martel, Jacques (Autor:in)
Energy and Buildings ; 92 ; 10-18
21.01.2015
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch