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Urban Sound Classification for IoT Devices in Smart City Infrastructures

Simona Domazetovska, Viktor Gavriloski, Damjan Pecioski, Maja Anachkova, Dejan Shishkovski, Anastasija Ignjatovska

2025Urban Science5 citationsDOIOpen Access PDF

Abstract

Urban noise is a major environmental concern that affects public health and quality of life, demanding new approaches beyond conventional noise level monitoring. This study investigates the development of an AI-driven Acoustic Event Detection and Classification (AED/C) system designed for urban sound recognition and its integration into smart city application. Using the UrbanSound8K dataset, five acoustic parameters—Mel Frequency Cepstral Coefficients (MFCC), Mel Spectrogram (MS), Spectral Contrast (SC), Tonal Centroid (TC), and Chromagram (Ch)—were mathematically modeled and applied to feature extraction. Their combinations were tested with three classical machine learning algorithms: Support Vector Machines (SVM), Random Forest (RF), Naive Bayes (NB) and a deep learning approach, i.e., Convolutional Neural Networks (CNN). A total of 52 models with the three ML algorithms were analyzed along with 4 models with CNN. The MFCC-based CNN models showed the highest accuracy, achieving up to 92.68% on test data. This achieved accuracy represents approximately +2% improvement compared to prior CNN-based approaches reported in similar studies. Additionally, the number of trained models, 56 in total, exceeds those presented in comparable research, ensuring more robust performance validation and statistical reliability. Real-time validation confirmed the applicability for IoT devices, and a low-cost wireless sensor unit (WSU) was developed with fog and cloud computing for scalable data processing. The constructed WSU demonstrates a cost reduction of at least four times compared to previously developed units, while maintaining good performance, enabling broader deployment potential in smart city applications. The findings demonstrate the potential of AI-based AED/C systems for continuous, source-specific noise classification, supporting sustainable urban planning and improved environmental management in smart cities.

Topics & Concepts

Smart cityComputer scienceConvolutional neural networkArtificial intelligenceMel-frequency cepstrumNoise (video)SpectrogramMachine learningSoftware deploymentRandom forestSupport vector machineNaive Bayes classifierReal-time computingDeep learningCloud computingEnvironmental noiseFeature (linguistics)MultilaterationArtificial neural networkPattern recognition (psychology)WirelessWireless sensor networkSpeech recognitionTest dataKey (lock)Data miningNoise reductionBackground noiseFeature extractionParticipatory sensingBayes' theoremFeature vectorCluster analysisNoise measurementScalabilityHome automationEvent (particle physics)Data modelingStatistical modelNoise Effects and ManagementMusic and Audio ProcessingPhonocardiography and Auscultation Techniques
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