基于生物传感平台的多雾水质监测系统的研制

P. Ganguly, A. Bose, K. Chakraborty, A. Chakrabarti, A. Dasgupta
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引用次数: 3

摘要

水质取决于各种因素,从气候条件到地理位置,从化学成分到水生生物多样性。由于水质与生活环境和健康质量之间的隐含关系,在本文中,我们提出了一种物联网启发的水传感和分类设计。通过一个说明性示例,描述了可以在物联网网络中实现的实时水质监测和学习算法。我们以养殖育种为例来说明我们的观点。该方法可以作为一个大型平台的先驱,在该平台中可以绘制不同的水性质,并且可以同时分类和感知水的性质。采用智能生物材料作为数据采集接口。这些采集到的数据被实时存储在雾设备中进行分析,反过来,可以帮助适当的决策和警报设置(如果有的话)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a Multi-Fog Based Water Quality Monitoring System Using Bio-Sensing Platform
Water quality depends on various factors starting from climatic conditions to geographical location, chemical constitution to aquatic bio-diversity. Due to implicit relation between water quality to the quality of life environment and health, here, in this paper we propose an IoT inspired design in water sensing and classification. Using an illustrtative example, real-time water quality monitoring and learning algorithms are described, which can be implemented in an IoT network. We consider pisciculture breeding as a specific example to illustrate our point. The methodology may serve as a precursor for a large scale platform in which different water properties can be mapped and simultaneous classification and sensing of water properties are possible. A smart bio-material has been used as the data acquiring interface. In real-time such acquired data is stored and analysed in a fog device, which in turn, can help appropriate decision making and alarm setting, if any.
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