Air pollution poses a significant threat to human health, climate stability, and ecological balance the proposed climate monitoring system utilizes Raspberry Pi as a central procession unit and integrates various sensors, which also incorporates sensors to measure the concentrations of PM1, PM2.5, PM10, and black carbon. This method meets the need for effective and immediate air quality monitoring and offers useful information to communities, academics, and policymakers. Through IoT connectivity, the gathered data is sent to a cloud-based platform for analysis and visualization.
The system offers a user-friendly interface that presents actionable insights for informed decision-making. Its warning capabilities alert users when pollution levels exceed thresholds and also this system contributes to a comprehensive understanding of air pollution. By measuring particulate matter and black carbon levels, it supports the development of effective air quality management strategies. The system helps to take proactive measures and create cleaner and healthier environments.
In conclusion, the proposed Climate Monitoring System utilizing Raspberry Pi, sensors, IoT connectivity, and machine learning techniques offers an effective and real-time solution for monitoring air quality. The integration of IoT connectivity allows remote access to air quality data, while machine learning algorithms analyse the data and initiate alerts.