可听化技术是室内声学研究的重要手段。
教室室内声学问题是当前建筑声学的一个研究热点。
Research of acoustical environment of classrooms is a current hotspot in architectural acoustics.
在室内声学中,早期反射声对音质有着重要的影响。
The early reflected sound is a critical factor in room acoustics.
室内声学天花板的细节设计进一步影响到外立面的模式。
The interior detailing of the acoustic ceiling makes further reference to exterior facades with its block patterning.
在室内声学测量中,参数的测量结果受到测试技术和系统的影响。
In room acoustic measurement, the results of objective parameters can be influenced by the measurement techniques and instruments used.
系统具有较强的适应性及实用性,在室内声学测量中具有广泛的应用前景。
This system will be widely applied to room acoustical measurement due to its adaptability and practicality.
吸取前人在室内声学设计方面的经验,掌握室内声学设计的一般原则和方法。
Absorbing the experience the predecessors have got on the indoor acoustics design, master the general principle and methods of indoor acoustics design.
当代室内声学专家经常选用的评价厅堂音质的物理参量,其间有几个量是相关的。
Some of the physical parameters for evaluating auditorium sound quality, which are always used by room acoustics specialists, are correlative.
现代建筑对声光环境要求不断提高,室内声学模拟已成为建筑虚拟现实的重要组成部分。
Along with the standing requirement to acoustic and optical environment in modern architecture, acoustic simulation has become more and more important in Virtual Reality of buildings.
本文首先回顾了传统室内声学理论,并阐释了传统声学理论在地铁站等长空间中的不适用性。
Firstly, the article reviews the theories of the tradition acoustics, expatiates that the theories of the tradition acoustics are unsuitable with the long - room.
等方向性噪声是室内声学环境中的一个显著特征,对于很多麦克风阵列和自适应消噪系统而言,具有重要意义。
Isotropic noise field, being of importance to many microphone arrays simulation and adaptive noise cancellation systems, is a famous characteristic in room acoustic environment.
吸声材料的吸声特性及其在室内的位置布置是室内声学研究的一个非常重要的部分,目前多是在实验室中进行测量研究。
The absorption properties of sound-absorbing material and its location in the room is a very important part of room acoustics study. The study methods are measured in the laboratory.
拖拉机驾驶室内噪声的大小与拖拉机噪声源及驾驶室本身的声学特性有关。
Noise within a tractor cab is concerned with the noise sources of the tractor and the acoustic characteristics of the cab itself.
建筑的每个空间都根据声学及感官需求分别进行了室内设计。
The interior spaces have been designed individually, studying the acoustic and sensory requirements of each room.
厅堂音质设计的基本任务是研究室内声波传输的物理条件和声学处理方法,以保证室内具有良好听闻条件。
The basic task of is to study the physical conditions of interior acoustic wave transmission and acoustic processing method approach to ensure a good indoor heard.
通过对驾驶室内空气声、固体声和混响声的分析,说明了简易式驾驶室的声学特性对耳旁噪声的影响。
On analysis, it is explained that the efcct of air, solid and reverberant noise within the cab on the car noise is illustrated in detail.
本文介绍了声学特性测量混响室法的基础室内声场理论与阻抗管法的基础管道平面波理论。
In this paper, room sound field theory as the basis of measurement based on reverberation chamber and waveguide theory as the basis of measurement based on impedance tube are introduced.
室内大量的橡木和粗纺产品使室内有温暖的感觉,并具有良好的声学性能。
Massive oak and woollen felt in the interior give the building the necessary warmth in addition to their acoustic function.
木材使用最精彩之处在于室内采用了硬纤维形木丝板,确保获得最佳声学性能。
The use of wood is highlighted internally by Fibraroc-type wood fiber chipboard panels to ensure excellent acoustic performance.
本文以某轮式装载机为样机,在进行大量试验的基础上,对影响驾驶室内噪声的主要噪声源和驾驶室本身的声学特性进行了分析。
Based on a large number of tests, the noise sources of a wheeled loader cab are determined and the acoustic characteristic of the cab is analyzed.
因此,研究吸声体的声学性能有助于建筑声学的实际应用,对提高人民的生活质量,改善室内环境具有重要的现实意义。
So to research the capability of absorber is meaningful to the realization of architectural acoustics, which is helpful to improve inner environment.
因此,研究吸声体的声学性能有助于建筑声学的实际应用,对提高人民的生活质量,改善室内环境具有重要的现实意义。
So to research the capability of absorber is meaningful to the realization of architectural acoustics, which is helpful to improve inner environment.
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