Experimental and Numerical Investigation of Room Sound Fields

室内声场的实验和数值研究

• 批准号: 122320-2013
• 负责人: Hodgson, Murray
• 金额: $ 1.89万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=569268
• 关键词: Experimental; Numerical; Investigation; Room; Sound

Acoustical environments in rooms have direct effects on the health, comfort, productivity and enjoyment of the occupants. The direct and indirect socio-economic costs of such problems can be enormous. The proposed research will develop improved tools for predicting and controlling sound, and for the accurate acoustical characterization of room surfaces and materials. Acoustical environments can be designed and controlled. This is often done retroactively, once problems are experienced, at great expense. Optimization of the acoustical environment at the design stage is cost-effective. Retroactive control measures must be introduced in a cost-effective manner. Noise control traditionally involves passive methods; the future of noise control must involve active methods. Room sound-field prediction and acoustical design rely on reliable test data. Testing governed by standards and performed in standardized test facilities must be valid. Reverberation test rooms - used to measure surface absorption, transmission and scattering - have been questioned, and require further investigation and refinement. Room design requires accurate prediction models and associated input data. How real room surfaces absorb and scatter sound is still not well understood, though we know it has a huge effect. Work proposed here aims to resolve this by developing and applying in-situ techniques to obtain reliable data. The proposed research will investigate fundamental aspects of room sound fields experimentally and numerically. Numerical methods will be used to predict diffuse sound fields and develop improved criteria for the design of reverberation rooms. In preparation for applying active noise control to 'fitted' workrooms, sound scattering of pressure fields by obstacles and their effects in rooms will be investigated experimentally. Existing measurement methods will be extended to rooms, and inverse methods applied, to characterize surfaces in situ. A new room-acoustical parameter and associated design criteria will be developed and tested.

房间的声学环境对居住者的健康、舒适、生产力和享受有直接影响。这些问题的直接和间接社会经济代价可能是巨大的。拟议的研究将开发改进的工具来预测和控制声音，以及房间表面和材料的准确声学特性。声学环境可以设计和控制。这通常是在遇到问题后进行的，代价很大。在设计阶段对声环境进行优化是具有成本效益的。必须以具有成本效益的方式采取追溯性控制措施。传统的噪声控制包括被动方法；未来的噪声控制必须采用主动的方法。室内声场预测和声学设计依赖于可靠的测试数据。由标准管理并在标准化测试设施中进行的测试必须是有效的。混响试验室——用于测量表面吸收、传输和散射——受到质疑，需要进一步调查和改进。房间设计需要准确的预测模型和相关的输入数据。真实的房间表面是如何吸收和散射声音的，尽管我们知道它有很大的影响，但我们仍然没有很好地理解。这里提出的工作旨在通过开发和应用原位技术来获得可靠的数据来解决这个问题。本研究将从实验和数值两方面探讨室内声场的基本方面。数值方法将用于预测漫射声场，并为混响室的设计制定改进的标准。为了准备将主动噪声控制应用于“合适的”工作室，将通过实验研究障碍物对压力场的声散射及其在房间中的影响。现有的测量方法将扩展到房间，并应用反向方法来原位表征表面。一个新的房间声学参数和相关的设计标准将被开发和测试。