Design of sensor node for air quality crowdsensing

2015 IEEE Sensors Applications Symposium (SAS) Pub Date : 2015-04-13 DOI:10.1109/SAS.2015.7133628

D. Oletić, V. Bilas

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引用次数: 44

Abstract

Information on air-quality in urban environments is typically measured only at limited number of sites, due to cost of measurement of atmospheric concentrations of toxic gases (CO, NO2, SO2) within accuracy boundaries defined by regulative bodies. Low spatial resolution of the mentioned environmental parameters hinders their applications in localization of the air-pollution sources, traffic regulation or studies of chronic respiratory diseases related to personal pollution exposure. Thus, we propose complementing the existing air quality monitoring infrastructure by a network of mobile sensors enabling the citizens to participate in measurement (e.g. “crowdsensing”). In this paper, we present the design of such battery-powered, wearable sensor node, housing two electrochemical gas sensors, temperature, relative humidity and atmospheric pressure sensors, with Bluetooth connectivity. Electrical, mechanical and software design are shown. Next, sensor node was characterized by evaluating the sensing accuracy and the autonomy in laboratory conditions. Accuracy within ±1 °C, ±2% RH, ±2 hPa, and ±0.6 ppm CO is shown. Autonomy is estimated at 65 h. Preliminary results of the outdoor functional test are demonstrated.

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空气质量众测传感器节点设计

由于测量大气中有毒气体(CO、NO2、SO2)浓度的成本在监管机构规定的精度范围内，城市环境中的空气质量信息通常只在有限的地点进行测量。上述环境参数的低空间分辨率阻碍了它们在空气污染源定位、交通管制或与个人污染暴露有关的慢性呼吸系统疾病研究中的应用。因此，我们建议通过一个移动传感器网络来补充现有的空气质量监测基础设施，使市民能够参与测量(例如“群众传感”)。在本文中，我们提出了这种电池供电的可穿戴传感器节点的设计，该节点包含两个电化学气体传感器，温度、相对湿度和大气压力传感器，并具有蓝牙连接。给出了电气、机械和软件设计。其次，通过评估传感器节点在实验室条件下的感知精度和自主性来表征传感器节点。精度范围为±1°C，±2% RH，±2 hPa，±0.6 ppm CO。自主性估计为65小时。室外功能测试的初步结果得到了证明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Sensors Applications Symposium (SAS)

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