TY - GEN AU - Alsina-Pagès,Rosa Ma AU - Bellucci,Patrizia AU - Zambon,Giovanni AU - Alsina-Pagès,Rosa Ma AU - Bellucci,Patrizia AU - Zambon,Giovanni TI - Smart Wireless Acoustic Sensor Network Design for Noise Monitoring in Smart Cities SN - books978-3-03943-281-3 PY - 2021/// CY - Basel, Switzerland PB - MDPI - Multidisciplinary Digital Publishing Institute KW - History of engineering & technology KW - bicssc KW - motor KW - mechanical fault KW - detection KW - RMS KW - sound KW - drill KW - safety KW - pattern KW - bearing KW - fan KW - shaft KW - road traffic noise KW - noise events KW - intermittency ratio KW - urban sites classification KW - noise monitoring KW - real-time noise mapping KW - wireless sensor networks KW - noise mapping KW - noise mitigation KW - DYNAMAP project KW - outdoors noise KW - sound level meter KW - digital signal processing KW - multirate filters KW - dynamic noise maps KW - anomalous noise events KW - individual impact KW - aggregate impact KW - WASN KW - sensor nodes KW - urban and suburban environments KW - noise control KW - sensor concept KW - road traffic noise model KW - dynamic model KW - acoustics KW - smart cities KW - deep learning KW - long short-term memory KW - temporal forecast KW - p-u sensor KW - p-p sensor KW - noise KW - Adrienne KW - stabilization KW - damping KW - acoustic impedance KW - road surfaces KW - low-cost sensors KW - networks KW - noise sources KW - regression analysis KW - contribution analysis KW - vehicle interior noise KW - acoustic sensor design KW - acoustic event detection KW - map generation KW - public information KW - END KW - CNOSSOS-EU N1 - Open Access N2 - The Environmental Noise Directive (END) requires that a five-year updating of noise maps is carried out to check and report on the changes that have occurred during the reference period. The updating process is usually achieved using a standardized approach consisting of collecting and processing information through acoustic models to produce the updated noise maps. This procedure is time consuming and costly, and has a significant impact on the financial statement of the authorities responsible for providing the maps. Furthermore, the END requires that easy-to-read noise maps are made available to the public to provide information on noise levels and the subsequent actions to be undertaken by local and central authorities to reduce noise impacts. In order to update the noise maps more easily and in a more effective way, it is convenient to design an integrated system incorporating real-time noise measurement and signal processing to identify and analyze the noise sources present in the mapping area (e.g., road traffic noise, leisure noise, etc.) as well as to automatically generate and present the corresponding noise maps. This wireless acoustic sensor network design requires transversal knowledge, from accurate hardware design for acoustic sensors to network structure design and management of the information with signal processing to identify the origin of the measured noise and graphical user interface application design to present the results to end users. This book is collection in which several views of methodology and technologies required for the development of an efficient wireless acoustic sensor network from the first stages of its design to the tests conducted during deployment, its final performance, and possible subsequent implications for authorities in terms of the definition of policies. Contributions include several LIFE and H2020 projects aimed at the design and implementation of intelligent acoustic sensor networks with a focus on the publication of good practices for the design and deployment of intelligent networks in other locations UR - https://mdpi.com/books/pdfview/book/3312 UR - https://directory.doabooks.org/handle/20.500.12854/68302 ER -