School of Rural, Surveying and Geoinformatics Engineering, National Technical University of Athens, 15772 Athens, Greece.
Sensors (Basel). 2022 Apr 11;22(8):2926. doi: 10.3390/s22082926.
Non-Intrusive Load Monitoring (NILM) describes the process of inferring the consumption pattern of appliances by only having access to the aggregated household signal. Sequence-to-sequence deep learning models have been firmly established as state-of-the-art approaches for NILM, in an attempt to identify the pattern of the appliance power consumption signal into the aggregated power signal. Exceeding the limitations of recurrent models that have been widely used in sequential modeling, this paper proposes a transformer-based architecture for NILM. Our approach, called ELECTRIcity, utilizes transformer layers to accurately estimate the power signal of domestic appliances by relying entirely on attention mechanisms to extract global dependencies between the aggregate and the domestic appliance signals. Another additive value of the proposed model is that ELECTRIcity works with minimal dataset pre-processing and without requiring data balancing. Furthermore, ELECTRIcity introduces an efficient training routine compared to other traditional transformer-based architectures. According to this routine, ELECTRIcity splits model training into unsupervised pre-training and downstream task fine-tuning, which yields performance increases in both predictive accuracy and training time decrease. Experimental results indicate ELECTRIcity's superiority compared to several state-of-the-art methods.
非侵入式负载监测 (NILM) 描述了仅通过访问家庭用电的总信号来推断电器使用模式的过程。基于序列到序列的深度学习模型已被牢固确立为 NILM 的最新方法,试图将电器功率消耗信号的模式识别到总功率信号中。本文提出了一种基于变压器的 NILM 架构,克服了在顺序建模中广泛使用的递归模型的局限性。我们的方法称为 ELECTRIcity,它完全依靠注意力机制来提取总信号和电器信号之间的全局依赖关系,利用变压器层来准确估计家用电器的功率信号。所提出模型的另一个附加价值是,ELECTRIcity 可以在最小的数据预处理和不需要数据平衡的情况下工作。此外,ELECTRIcity 引入了一种与其他传统基于变压器的架构相比更有效的训练例程。根据该例程,ELECTRIcity 将模型训练分为无监督预训练和下游任务微调,这在预测准确性提高和训练时间减少方面都取得了性能提升。实验结果表明,ELECTRIcity 优于几种最新方法。
