摘要
对于低频噪声,信号中心频率附近声压级较高的有调音部分发生变化时,包括谱峰的声压级增高和谱峰的形状变尖,会使主观有调感明显提高。因此在考虑有调度计算模型时,一定要充分考虑峰值信号部分产生的影响。现有的有调度计算模型虽然在此部分有所考虑,但是由于模型中的带宽计权因子不能恰当描述这一特征,因而不能准确描述相应的主观感觉,并且计算模型不稳定。通过实验研究与分析得到影响主观有调感最大的因素是有调音部分的声压级大小和谱峰形状,据此进一步从纯音的窄带频率调制信号的主观评价实验出发,通过实验所得的有调度评分值反演出有调度的带宽计权因子,从而对现有模型中的带宽计权因子进行了修正,增加了峰值尖锐程度对有调度的影响,提高了有调度模型的准确性,而且增强了计算的鲁棒性。
For the low-frequency noise,the subjective tonal sense will be significantly improved when the tonal part which has higher sound pressure level near the center frequency is changed,including peak sound pressure level rais-ing and peak shape sharpening.Therefore,the impact of the peak signals must be fully taken into account for tonality model.Some consideration has been made for the current model in this aspect,however,the models are instability and a certain bias has presented with subjective results.In this paper,the existing model has been modified based on experimental research and analysis for Chinese people.
出处
《声学技术》
CSCD
2012年第1期92-97,共6页
Technical Acoustics
关键词
低频噪声
有调度
计算模型
low-frequency noise
tonality
computation model
