Sound Insulation and Reflection Properties of Sonic Crystal Barrier Based on Micro-Perforated Cylinders

Dimitrijević, Stefan M.; García-Chocano, Victor M.; Cervera, Francisco; Roth, Emelie; Sánchez‐Dehesa, José

doi:10.3390/ma12172806

Cited by 17 publications

(7 citation statements)

References 32 publications

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“…Authors [1,25,26,[54][55][56][57][58] have shown that the foreground and background sounds affect the perception of the environment differently. It is the background noise that correlates with space perception.…”

Section: Discussionmentioning

confidence: 99%

Noise as a Factor of Green Areas Soundscape Creation

et al. 2020

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The article’s research subject concerns soundscape acoustic perception and human perception. The article aims to support decision-making processes, based on the subjective assessment of green areas by visitors, allowing modeling of planning strategies in urban green areas. This would allow creating a friendly soundscape and managing it sustainably. The need to create a musical landscape can contribute to finding a new function and attractive form for the studied areas now and in the future. Research carried out for selected city parks in Bydgoszcz (Poland) took into consideration people’s responses in assessing the soundscape. Surveys conducted in selected parks provided information on noise sources and how consumers perceive noise during their stay in the park. A question about feeling described the reception of sound sources’ intensity by respondents (level of feeling: low, medium, high, and very high). The completed studies allow to “translate” subjective sound level responses to the numerical values of the correlation using fuzzy cognitive maps. The implemented scenarios show the possibility of using tools supporting the decision-making process in urban planning, taking into account existing acoustic conditions.

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Section: Discussionmentioning

confidence: 99%

Noise as a Factor of Green Areas Soundscape Creation

et al. 2020

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“…So, the first decision is considering the lowest frequency in the traffic noise spectrum of international standard EN 1793-3 [8], 100 Hz. At this frequency the SNCB is almost transparent, having an insignificant insulation of only 2 or 3 dB [9]. The noise source will be a car moving at 108 Km/h in a highway section of 6 meters.…”

Section: Anc System For Scnb With Ddqn Architecturementioning

confidence: 99%

Reinforcement learning applied to an Active Noise Control system in Sonic Crystal Noise Barriers

Ramírez-Solana,

Galiana-Nieves,

Redondo

et al. 2024

Proceedings of the 10th Convention of the European Acoustics Association Forum Acusticum 2023

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Noise control is one of the main environmental challenges today. Transport noise is often reduced by using noise barriers which are problematic due to their lack of permeability to water and wind. In recent decades, an alternative to conventional noise barriers has been proposed based on Sonic Crystals, called Sonic Crystal Noise Barriers (SCNB). However, they present another problem due to their lack of efficiency at low frequencies. On the other hand, cheaper technology in recent years has greatly enhanced Active Noise Control (ANC). Protection against noise is becoming more and more feasible using this type of technology. In contrast to SCNB, active noise control is more efficient at low frequencies because the sweet point is larger at these frequencies. All this leads us to consider the combination of both ideas in this numerical approach. The aim is using a Reinforcement Learning (RL) architecture with a Double Deep Q-Network (DDQN) agent, studying the potential of incorporating ANC into these SCNB and produce permeable barriers with the best low frequency response possible.

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“…Participatory tools such as focus groups, questionnaires, and sound walks facilitate this engagement [8,9]. After gathering the environmental condition evolution and the evolving area's public opinion, several noise-reducing measures can be exploited to solve targeted environmental acoustic problems, like low-noise road pavements, noise barriers, regulatory car speed reduction, and viability modification [3,[10][11][12][13][14][15]. Moreover, targeted solutions (like sound-proofing windows or louvres) can be developed for buildings where acoustic comfort is critical for indoor activities, such as schools, hospitals, or offices [16].…”

Section: Introductionmentioning

confidence: 99%

Acoustic Requalification of an Urban Evolving Site and Design of a Noise Barrier: A Case Study at the Bologna Engineering School

Fusaro,

Garai

2024

Applied Sciences

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The increase in new infrastructure development has raised closer attention to the environmental noise of new expansion areas. This study investigates the urban evolution of Terracini Street’s surrounding area in the Navile district, Bologna, Italy. In the last 20 years, this area has undergone various transformations, from a suburban industrial area to a new university and residential one. First, the morphologic and infrastructural characteristics of the site are established. Then, the existing regulations (acoustic, urban, and infrastructural regulations, whether local or national) are evaluated. Next, the results of environmental noise measurements are presented. Since a heavily trafficked infrastructure is very close to the occupied public area, noise limits are severely exceeded. A noise mitigation design stage follows, focusing on a novel noise barrier design. Specifically, particular attention is paid to the visual and ecological impact of the noise barrier on the area’s landscape, which must be representative of the new location of the School of Engineering. The sonic crystal technique is exploited to implement an effective noise barrier (average insertion loss of 10 dB(A) in the 200 Hz–1 kHz range), allowing air ventilation and visual transparency. This case study could further evolve using other acoustic metamaterial techniques or in different application sites.

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Sound Insulation and Reflection Properties of Sonic Crystal Barrier Based on Micro-Perforated Cylinders

Cited by 17 publications

References 32 publications

Noise as a Factor of Green Areas Soundscape Creation

Noise as a Factor of Green Areas Soundscape Creation

Reinforcement learning applied to an Active Noise Control system in Sonic Crystal Noise Barriers

Acoustic Requalification of an Urban Evolving Site and Design of a Noise Barrier: A Case Study at the Bologna Engineering School

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