可听化技术是室内声学研究的重要手段。
可听化和可视化是构建虚拟视听环境的两个重要方面。
Both auralization and visualization are very important for building up a virtual sound environment.
如何求解声传递函数成为实现小尺度封闭空间可听化的关键技术。
How to calculate sound transfer function (STF) is the key technology of auralization in small enclosure.
可听化通过声音来表达数据,涉及到将数据映射到可听范围的处理。
Sonification is the use of representations of data through sound, involving a mapping process into the aural realm.
目前,以几何声学为基础的可听化软件以及许多研究成果无法解决这些问题。
At present, auralization software and research fruit based on geometrical acoustics can't solve problems above.
综述了在室内音质设计中可听化技术的现状、原理及其应用,并着重讨论了可听化技术研究中存在的问题。
The present status, the principle and application of auralization of room acoustical design are reviewed in this paper.
如何求解封闭空间中声源点到接收点的低频声传递函数已成为目前小尺度封闭空间可听化技术研究的关键问题。
How to computing low frequency sound transfer function from source to receiver in enclosed room has become key problem in small enclosed room auralization.
设计分析信息以可听化反馈,作为图形界面的补充,增加用户接收的信息量,减轻视觉通道的负荷,并能从全局视图上观察分析数据。
The feedback of sonification on design analyzing information increases the information accepted by users, and decreases the load of visual channel, and can observe and analyze the data as a whole.
设计分析信息以可听化反馈,作为图形界面的补充,增加用户接收的信息量,减轻视觉通道的负荷,并能从全局视图上观察分析数据。
The feedback of sonification on design analyzing information increases the information accepted by users, and decreases the load of visual channel, and can observe and analyze the data as a whole.
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