Arduino Ear: A Low-Cost IoT System for Real-Time Environmental Monitoring and Protection

Author:

Barath M.K1,sagayaraj R1

Affiliation:

1. St. Joseph’s College of Arts and Science (Autonomous)

Abstract

Abstract

Acoustic sources offer a valuable but underutilized reservoir of environmental data. This paper explores the use of Arduino-based sensors to map noise pollution and monitor ecosystems. The system utilizes an ATmega328P chip, ESP8266 Wi-Fi module, and sound sensor to capture and transmit sound data. By analysing variations in sound intensity, the system can detect potential threats like illegal sand mining. The data can be uploaded to cloud platforms for visualization and analysis, enabling authorities to take swift action. This project contributes to creating a sustainable environment by promoting acoustic monitoring and ecosystem protection.

Publisher

Springer Science and Business Media LLC

Reference15 articles.

1. IoT based real time noise mapping system for urban sound pollution study;Ahmed S,2020

2. Bianchi, A. J., & Queiroz, M. (2013). Real time digital audio processing using Arduino. In Proceedings of the Sound and Music Computing Conference, Stockholm, Sweden (pp. 538–545).

3. Using Arduino in physics experiments: determining the speed of sound in air;Çoban A;Physics Education,2020

4. Cobos, M., Antonacci, F., Mouchtaris, A., & Lee, B. (2017). Wireless acoustic sensor networks and applications. Wireless Communications and Mobile Computing, 2017, 1–3.

5. De Lauretis, L., Lombardi, T., Costantini, S., & Clementini, L. (2021). An Arduino-based Device to Detect Dangerous Audio Noises. In IoTBDS (pp. 303–308).

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