期刊
IEEE TRANSACTIONS ON SMART GRID
卷 12, 期 4, 页码 3242-3251出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TSG.2021.3066547
关键词
HVAC; Time-frequency analysis; Correlation; Buildings; Load modeling; Lighting; Neural networks; Load disaggregation; time-frequency mask; deep neural network (DNN); heating; ventilation; and air-conditioning (HVAC); lighting; non-intrusive load monitoring (NILM); load decomposition
资金
- Institute for Information and Communications Technology Promotion (IITP) - Korean Government (MSIT) [2017-0-00413]
- GIST Research Institute (GRI) - GIST
This paper presents a novel mask-based load disaggregation scheme using a deep neural network customized in a time-frequency domain to effectively extract the flexible portion of loads. The proposed scheme outperforms conventional disaggregation models in discriminating the contributions of the flexible load from the total power consumption, as shown in numerical evaluations.
In this paper, a novel mask-based load disaggregation scheme is presented to extract flexible load profiles in buildings. Flexible loads are those that can be adjusted as needed and examples of such loads are heating, ventilation, and air-conditioning (HVAC), and lighting loads. Knowledge about the flexible sub-load in buildings is crucial for demand-side management programs. However, the load decomposition performance of conventional disaggregation methods may be limited mainly because similar profiles are superimposed on the entire load of the buildings. Motivated by these problems, a deep neural network (DNN)-based mask, termed DNNM, is proposed. It is customized in a time-frequency (T-F) domain to effectively extract the flexible portion of loads. To the best of our knowledge, the DNNM is to achieve load disaggregation using the distinctive T-F properties of the flexible loads. Particularly, a new mask is designed to increase the load disaggregation accuracy by determining the appropriate ratio of flexible load in the mixed loads, adaptively for different T-F elements. Numerical evaluations for residential and commercial building loads show that the proposed DNNM scheme outperforms the conventional disaggregation models in discriminating the contributions of the flexible load from the total power consumption.
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