Using IoT Data-Driven Analysis of Water Consumption to support Design for Sustainable Behaviour during the COVID-19 Pandemic

Marco Zecchini, Alessandra Anna Griesi, I. Chatzigiannakis, I. Mavrommati, Dimitrios Amaxilatis, O. Akrivopoulos
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引用次数: 2

Abstract

Aquatic environments are cornerstone for the existence of life, while water scarcity and unsafe water supply are major global issues affecting citizens [37]. Recently, the deployment of Internet of Things over water distribution networks has indicated ways to address some of these issues. Yet, policies for sustainable and efficient use of the aquatic resources depend largely on citizen's engagement. The use of data arriving from water metering and water quality sensors in educational environments as a mean to educate citizens and inspire environmental friendly behaviours has not been studied throughly in the past, mainly due to the lack of real-world data. Towards this end, real-world data collected by smart water meters can become a powerful tool to bridge digital and physical environments to support design for sustainable behaviour. A data-driven approach is adopted here that evaluates the effect of human actions related to the consumption of water within an educational setting. The data used in this study is collected from a pilot deployment of a 24 months period and is analyzed on weekly, daily and hourly basis to identify usage patterns. The examined period also includes the restrictions imposed by the local authorities as a response to the COVID-19 emergency taking place during the first quarter of 2020. The evaluation of water consumption before, during and after the lockdown period highlights the impact of human actions within the educational environment. The paper investigates how to design educational activities for sustainable behaviour based on the analysis of the data collected from the smart water grid.
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利用物联网数据驱动的用水量分析,支持2019冠状病毒病大流行期间的可持续行为设计
水生环境是生命生存的基石,而水资源短缺和不安全供水是影响公民的重大全球性问题[37]。最近,在配水网络上部署物联网为解决其中一些问题指明了途径。然而,可持续和有效利用水生资源的政策在很大程度上取决于公民的参与。在教育环境中使用来自水计量和水质传感器的数据作为教育公民和激励环境友好行为的手段,过去没有进行过全面的研究,主要是由于缺乏实际数据。为此,智能水表收集的真实世界数据可以成为连接数字和物理环境的强大工具,以支持可持续行为的设计。这里采用了一种数据驱动的方法来评估与教育环境中用水有关的人类行为的影响。本研究使用的数据是从为期24个月的试点部署中收集的,并以每周、每天和每小时为基础进行分析,以确定使用模式。所审查的期间还包括地方当局为应对2020年第一季度发生的COVID-19紧急情况而实施的限制。对封锁之前、期间和之后的用水量进行的评估突出了人类活动对教育环境的影响。本文研究了如何在分析智能水网收集的数据的基础上设计可持续行为的教育活动。
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期刊介绍: Computer Engineering and Design is supervised by China Aerospace Science and Industry Corporation and sponsored by the 706th Institute of the Second Academy of China Aerospace Science and Industry Corporation. It was founded in 1980. The purpose of the journal is to disseminate new technologies and promote academic exchanges. Since its inception, it has adhered to the principle of combining depth and breadth, theory and application, and focused on reporting cutting-edge and hot computer technologies. The journal accepts academic papers with innovative and independent academic insights, including papers on fund projects, award-winning research papers, outstanding papers at academic conferences, doctoral and master's theses, etc.
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