A self-calibrating approach to whole-home contactless power consumption sensing

Md Tanvir Islam Aumi, Sidhant Gupta, Cameron Pickett, M. Reynolds, Shwetak N. Patel
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引用次数: 4

Abstract

In this paper, we present a significant improvement over past work on non-contact end-user deployable sensor for real time whole home power consumption. The technique allows users to place a single device consisting of magnetic pickups on the outside of a power or breaker panel to infer whole home power consumption without the need for professional installation of current transformers (CTs). The new approach does not require precise placement on the breaker panel, a key requirement in previous approaches. This is enabled through a self-calibration technique using a neural network that dynamically learns the transfer function despite the placement of the sensor and the construction of the breaker panel itself. We also demonstrate the ability to actually infer true power using this technique, unlike past solutions that have only been able to capture apparent power. We have evaluated our technique in six homes and one industrial building, including one seven-day deployment. Our results show we can estimate true power consumption with an average accuracy of 95.0% during naturalistic energy use in the home.
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一种自校准的全屋非接触式功耗传感方法
在本文中,我们在非接触式终端用户可部署传感器的实时整个家庭功耗方面进行了重大改进。该技术允许用户在电源或断路器面板的外部放置由磁性拾取器组成的单个设备,以推断整个家庭的功耗,而无需专业安装电流互感器(CTs)。新方法不需要在断路器面板上精确放置,这是以前方法的一个关键要求。这是通过使用神经网络的自校准技术实现的,该神经网络动态学习传递函数,而不考虑传感器的位置和断路器面板本身的结构。我们还展示了使用这种技术实际推断真实功率的能力,而不像过去的解决方案只能捕获表面功率。我们已经在六个家庭和一个工业建筑中评估了我们的技术,包括一个为期七天的部署。我们的结果表明,在家庭自然能源使用过程中,我们可以估计出真实的电力消耗,平均准确率为95.0%。
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