使用物联网和机器学习方法的智慧城市空气污染评估框架

2023 2nd International Conference on Applied Artificial Intelligence and Computing (ICAAIC) Pub Date : 2023-05-04 DOI:10.1109/ICAAIC56838.2023.10140834

H. Varade, Sonal C. Bhangale, Sandip R. Thorat, Pravin B. Khatkale, S. Sharma, P. William

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引用次数: 10

摘要

呼出和吸入肮脏的空气对健康有重大影响。通过定期监测和记录，可以减轻空气污染的影响。政府机构也可以采取主动措施，通过实时准确预测污染水平来保护环境。在未来的智慧城市中，我们建议使用物联网和机器学习来跟踪我们呼吸的空气中的污染水平。通过Pearson相关检验，了解污染物与气象指标之间是否存在较高的关联性。本研究使用以云为中心的物联网中间件架构，而不是标准的传感器网络来收集空气污染和当前天气传感器的数据。这意味着可靠性和成本都得到了极大的提高。使用人工神经网络(ANN) (PM2.5)预测二氧化硫(SO2)和颗粒物水平。积极的结果表明，人工神经网络可以用于监测和预测空气污染。使用我们的模型发现SO2和PM2.5的RMSE值分别为0.0128和0.0001。

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Framework of Air Pollution Assessment in Smart Cities using IoT with Machine Learning Approach

Exhale and inhale filthy air has major health consequences. Air pollution's influence may be mitigated by conducting regular monitoring and keeping a record of it. Government organizations may also take proactive measures to protect the environment by accurately anticipating pollution levels in real time. In future smart cities, we propose using the Internet of Things and machine learning to track pollution levels in the air we breathe. The Pearson correlation test is performed to see whether pollutants and meteorological indicators have a high link. A cloud-centric IoT middleware architecture is used in this research instead of a standard sensor network to gather data from both air pollution and current weather sensors. This means that both reliability and cost have been greatly improved. Sulphur Dioxide (SO2) and Particulate Matter levels were predicted using an Artificial Neural Network (ANN) (PM2.5). The positive results show that ANNs may be used to monitor and forecast air pollution. RMSE values of 0.0128 and 0.0001 for SO2 and PM2.5 were found using our models.

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2023 2nd International Conference on Applied Artificial Intelligence and Computing (ICAAIC)

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