Design industrial 5.1 air quality monitoring system and develop smart city infrastructure

Q4 Engineering Measurement Sensors Pub Date : 2024-08-08 DOI:10.1016/j.measen.2024.101292

Lin Wang

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Abstract

In order to meet the requirements of urban construction and further urbanization of the country, the author proposes an industrial 5.1 air quality monitoring system to develop smart city infrastructure. The author utilizes a wireless network of lighting nodes to solve the cost and positioning accuracy issues of perception nodes covering a large area, achieving real-time alarm of urban air quality status and location of pollution occurrence. The author also adopted the latest design concept of monitoring systems combined with cloud platform interfaces, breaking the closed design of traditional IoT systems and enabling better utilization of air quality data. The test results indicate that: The communication distance of CC2530 can be maintained at around 70m under normal power, while the spacing between urban street lights is approximately 30m, which fully meets the project requirements. After two days of testing, the system alarm function and various functions are running normally.

Conclusion

The key parts of the system have been tested and simulated, and ideal results have been obtained.

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设计工业 5.1 空气质量监测系统，开发智能城市基础设施

为了满足城市建设和国家进一步城市化的要求，作者提出了一种工业 5.1 空气质量监测系统，以发展智慧城市基础设施。作者利用照明节点的无线网络，解决了大面积覆盖的感知节点的成本和定位精度问题，实现了城市空气质量状况和污染发生位置的实时报警。作者还采用了最新的监测系统设计理念，结合云平台接口，打破了传统物联网系统的封闭设计，使空气质量数据得到了更好的利用。测试结果表明在正常供电情况下，CC2530 的通信距离可保持在 70 米左右，而城市路灯间距约为 30 米，完全满足项目要求。经过两天的测试，系统报警功能和各种功能运行正常。

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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