An AI-Driven Approach for Real-Time Noise Level Monitoring and Analysis

Abstract

Now a days, noise pollution is posing a public health risk, especially in residences and indoor environments like workplaces and schools. The proposed work presents a comprehensive analysis of hourly equivalent noise levels measured at 100 locations, such as the indoor environment. The proposed work is an intelligent automated noise pollution monitoring system for the real-time tracking and adaptive management of noise in indoor environments such as offices, homes, and educational institutions. Unlike other systems that merely record noise levels, the proposed solution provides real time alerts with web-based visualization and AI-enabled noise pattern recognition for enhanced noise classification. The integration of an ESP8266 Wi-Fi module and a cloud-based architecture employs email notifications instantly, which also allows historical trend analysis and predictive insights. In addition, the framework is under-scope for the integration of smart home automation systems and mobile-based alerting, allowing for better accessibility. The IoT-powered innovations within this framework will revolutionize noise management by proactively monitoring, analyzing, and optimizing indoor sound environments. Through real-time adjustments and intelligent automation, these solutions will create a more serene, comfortable, and productivity-enhancing atmosphere. Whether in offices, homes, or public spaces, this advanced noise control system will contribute to overall well-being, concentration, and efficiency.