S. I. Lopes, P. M. Moreira, António M. Cruz, Pedro M. N. Martins, F. Pereira, A. Curado
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引用次数: 16
摘要
近年来,基于物联网的监测(即智能监测)技术已被用于许多应用领域的在线监测,如家庭、环境和工业过程监测。人的一生中至少有一半时间是在建筑物内度过的,因此,室内空气质量(Indoor Air Quality, IAQ)对人体健康和建筑物的可持续性都起着重要的作用。氡气是室内空气质量评估最重要的参数之一,被世界卫生组织(世卫组织)视为与肺癌有关的第二大危险因素。本文旨在介绍RnMonitor,这是一个基于webgis的平台,用于有效的氡风险管理,并加快基于物联网的传感器的现场部署。考虑到空间环境是视觉和数据分析的关键,该平台利用了系统中本地地理参考的空间相关实体(建筑物/房间/设备)的层次结构,从而通过简单、响应迅速和直观的基于web的应用程序为获取的数据和其他相关指标提供空间环境。
RnMonitor: a WebGIS-based platform for expedite in situ deployment of IoT edge devices and effective Radon Risk Management
IoT-based monitoring (i.e. smart monitoring) technologies have been recently used for on-line monitoring in many application fields, such as home, environmental and industrial process monitoring. People spend at least half of their life inside buildings, therefore, Indoor Air Quality (IAQ) plays an important role both on human health and on buildings’ sustainability. Radon gas is one of the most important parameters regarding IAQ assessment, being considered by the World Health Organization (WHO) as the second largest risk factor associated with lung cancer. This paper aims to present RnMonitor, a WebGIS-based platform developed for effective Radon Risk Management and expedite in situ deployment of IoT-based sensors. Given the fact that the spatial context is key for visual and data analytics, the proposed platform takes advantage of a hierarchy of spatially related entities (buildings/rooms/devices) that are natively georeferenced in the system, and thus providing spatial context to acquired data, and other relevant metrics, by means of a simple, responsive and intuitive web-based application.
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