Influence of the Number of Loudspeakers on the Timbre in Horizontal and Mixed-Order Ambisoncis Reproduction

IF 0.9 Q4 ACOUSTICS Sound and Vibration Pub Date : 2019-01-01 DOI:10.32604/SV.2019.04275
Haiming Mai, Bo-sun Xie, Jianliang Jiang, D. Rao, Yang Liu
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Abstract

Ambisonics is a series of flexible spatial sound reproduction systems based on spatial harmonics decomposition of sound field. Traditional horizontal and spatial Ambisonics reconstruct horizontal and spatial sound field with certain order of spatial harmonics, respectively. Both the Shannon-Nyquist spatial sampling frequency limit for accurately reconstructing sound field and the complexity of system increase with the increasing order of Ambisonics. Based on the fact that the horizontal localization resolution of human hearing is higher than vertical resolution, mixed-order Ambisonics (MOA) reconstructs horizontal sound field with higher order spatial harmonics, while reconstructs vertical sound field with lower order spatial harmonics, and thereby reaches a compromise between the perceptual performance and the complexity of system. For a given order horizontal Ambisoncis or MOA reproduction, the number of horizontal loudspeakers is flexible, providing that it exceeds some low limit. By using Moore’s revised loudness model, the present work analyzes the influence of the number of horizontal loudspeakers on timbre both in horizontal Ambisonics and MOA reproduction. The binaural loudness level spectra (BLLS) of Ambisoncis reproduction are calculated and then compared with those of target sound field. The results indicate that below the Shannon-Nyquist limit of spatial sampling, increasing the number of horizontal loudspeakers influence little on BLLS then timbre. Above the limit, however, the BLLS for Ambisoncis reproduction deviate from those of target sound field. The extent of deviation depends on both the direction of target sound field and the number of loudspeakers. Increasing the number of horizontal loudspeakers may increase the change of BLLS then timbre in some cases, but reduce the change in some other cases. For MOA, the influence of the number of horizontal loudspeakers on BLLS and timbre reduces when virtual source departs from horizontal plane to the high or low elevation. The subjective evaluation experiment also validates the analysis.
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扬声器数量对水平和混阶双音再现音色的影响
双声系统是一系列基于声场空间谐波分解的柔性空间声音再现系统。传统的水平和空间双声分别以一定的空间谐波顺序重构水平声场和空间声场。精确重建声场的Shannon-Nyquist空间采样频率极限和系统复杂性都随着双声阶的增加而增加。混合阶Ambisonics (MOA)基于人类听觉水平定位分辨率高于垂直定位分辨率的事实,用高阶空间谐波重建水平声场,用低阶空间谐波重建垂直声场,从而在感知性能和系统复杂性之间达成妥协。对于给定顺序的水平双音或MOA再现,水平扬声器的数量是灵活的,只要它超过某个低限制。本文采用摩尔修正的响度模型,分析了水平扬声器数量对水平立体声和MOA再现音色的影响。计算了双耳双响度级谱,并与目标声场进行了比较。结果表明,在空间采样的Shannon-Nyquist极限下,增加水平扬声器的数量对BLLS的影响较小,对音色的影响较小。然而,在此限度以上,双耳声再现的BLLS与目标声场的BLLS存在偏差。偏离的程度取决于目标声场的方向和扬声器的数量。增加水平扬声器的数量可能会在某些情况下增加BLLS然后音色的变化,但在其他情况下会减少变化。对于MOA来说,当虚拟声源从水平面向高海拔或低海拔方向移动时,水平扬声器数量对声线和音色的影响减小。主观评价实验也验证了分析的正确性。
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来源期刊
Sound and Vibration
Sound and Vibration 物理-工程:机械
CiteScore
1.50
自引率
33.30%
发文量
33
审稿时长
>12 weeks
期刊介绍: Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications. Papers are sought that contribute to the following general topics: -broad-based interests in noise and vibration- dynamic measurements- structural analysis- computer-aided engineering- machinery reliability- dynamic testing
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