2021
DOI: 10.3390/su13031353
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Abatement of the Increases in Cooling Energy Use during a Period of Intense Heat by a Network-Based Adaptive Controller

Abstract: Various methods to control thermal conditions of building spaces have been developed to investigate their performances of energy use and thermal comfort in the system levels. However, the high control precision used in several studies dealing with data-driven methods may cause energy increases and the high energy efficiency may be disadvantageous for maintaining indoor environmental quality. This study proposes a model that optimizes the supply air condition to effectively reach the setting values by two-way c… Show more

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Cited by 5 publications
(4 citation statements)
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“…It can be assumed that these relatively small differences in energy consumed were derived from its precise control by optimizing the overshooting value generated when the Trm reached the Tset. In the simulation tests conducted with similar methodologies and models, thermal comfort and energy use show the control efficiency by 6~14% and 2~39%, respectively [14,17,31]. However, since this model tests an adaptive model using additional modules to maintain the quality of comfort in existing control systems, the energy use savings of about 5% can be sufficiently significant.…”
Section: Heating Energy By the Control Modelsmentioning
confidence: 93%
See 1 more Smart Citation
“…It can be assumed that these relatively small differences in energy consumed were derived from its precise control by optimizing the overshooting value generated when the Trm reached the Tset. In the simulation tests conducted with similar methodologies and models, thermal comfort and energy use show the control efficiency by 6~14% and 2~39%, respectively [14,17,31]. However, since this model tests an adaptive model using additional modules to maintain the quality of comfort in existing control systems, the energy use savings of about 5% can be sufficiently significant.…”
Section: Heating Energy By the Control Modelsmentioning
confidence: 93%
“…As a principle, the ANN algorithm includes a large class of several structures, and the optimized selections of a nonlinear mapping function x with a network are required as described in Fig. 2 [30,31]. In this research, the inner structure in function approximation consists of two input layers, 1ten hidden layers, and one output layer for the amount of air and its temperature, respectively.…”
Section: Control Modelsmentioning
confidence: 99%
“…Then, the algorithm interpreted the signals to turn off for the amount of air and to increase the air temperature; thus, by these two control outputs, the ANN model was trained. As a principle, the ANN algorithm includes a large class of several structures, and the optimized selections of a nonlinear mapping function x with a network are required [30,31]. In this research, the ANN algorithm in function approximation was a multi-layer perceptron, which consisted of 2 input layers, 10 hidden layers, and an output layer for the amount of air and its temperature, respectively.…”
Section: Control Rulementioning
confidence: 99%
“…The combination of machine learning, fuzzy control, and evolutionary algorithms culminated in the so-called Computational Intelligence (CI), which is currently being used in architecture. Some sophisticated control methods have integrated fuzzy adaptive control [12][13][14][15], optimum comfort control [16], and minimum-power comfort control [17] to address the nonlinear characteristic of comfort parameters, computation, time delay, and system uncertainty. A backpropagation algorithm-based direct neural network controller has been developed and effectively used in hydronic heating systems [18].…”
Section: Related Workmentioning
confidence: 99%