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声源空间分离对向前时域掩蔽阈值的影响 被引量:3

Effect of Spatial Separation in Azimuth on the Threshold of Forward Masking in Time Domain
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摘要 从实验上探讨了掩蔽和被掩蔽声源在水平面方向分离时的向前掩蔽效应,并与单扬声器重发方式作比较,得到了这2种情况下3种频率的被掩蔽纯音信号(250Hz,1170Hz,4000Hz)的掩蔽阈值随掩蔽窄带噪声5种声压级(30dB,40dB,50dB,60dB,70dB)变化的曲线。实验结果表明:声源空间分离时,除了个别情况外,掩蔽阈值都比单扬声器重发时有较大幅度的降低。文中进一步指出掩蔽阈值的降低是较优耳效应和双耳效应等的综合作用造成的。因此掩蔽声和被掩蔽声在空间上的分离会削弱向前时域掩蔽的作用,这一结论可为将来改进音频压缩算法提供理论基础。 In this experiment,forward masking effect was studied when the masking and masked sources are spatially separated in azimuth,and compared with single-loudspeaker reproduction condition. Thresholds for the detection of brief sinusoidal signals (250,1170 and 4000Hz) masked respectively by three narrowband noise forward maskers were measured as a function of masker level (30,40,50,60 and 70dB). For spatial separation condition, the thresholds tended to drop by a relative large amount,with only very few exceptions. The results were analyzed by the combination of better-ear contribution,binaural effect and etc. In general,it can be concluded that the spatial separation of masking and masked sources will weaken the effect of forward masking in time domain. This conclusion can serve as a theoretic basis for improving digital audio compression scheme.
作者 金晶 谢志文
机构地区 华南理工大学物理科学与技术学院
出处 《电声技术》 2005年第7期35-40,共6页 Audio Engineering
关键词 向前掩蔽 掩蔽阈值 较优耳效应 双耳效应 forward masking threshold better-ear contribution binaural effect
分类号 TN912 [电子电信—通信与信息系统]
  • 相关文献

参考文献11

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二级参考文献8

  • 1Blautert J. Spatial Hearing:the Psychophysics of Human Sound Localization (Revived Edition),M1T Press,Cambridge, MA, 1997.
  • 2Steven van de Par, Armin Kohlrausch. Analytical Expressions for the Envelope Correlation of Narrow-band Stimuli used in CMR and BMLD Research. J. Acoust.Soc. Am. 1998,103 (6):3 605-3 620.
  • 3Steven van de Par, Armin Kohlrausch. A New Approach to Comparing Binaural Masking Level DifFerences at low and high frequencies. J. Acoust. Soc. Am. 1997,101(3): 1 671-1 680.
  • 4Norbert Kopco, Shinn-Cunningham B G. Spatial Unmasking of Nearby Pure-tone Targets in A simulated Anechoic Environment. J. Acoust. Soc.Am., 2003,114( 5 ) :2 856-2 870.
  • 5Burgtorf W, Oehlschlagel H K. Investigation of the Direction Dependence of the Perceptibility of Delayed Sound Signals. Acustica, 1964, 14:254-265.
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  • 7Patterson R.D. Moore. B.C.J. Auditory Filters and Excitation Patterns as Representations of Frequency Resolution, in Frequency Selectivity in Hearing. Academic press, London, 1986.
  • 8Moore B C J. An Introduction to the Psychology of Hearing(Fifth Edition). Academic Press, London , 2003.

共引文献7

同被引文献34

  • 1林静然,彭启琮,邵怀宗.基于麦克风阵列的双波束近场定位及语音分离[J].仪器仪表学报,2004,25(z1):1000-1002. 被引量:6
  • 2谢志文,尹俊勋,饶丹.空间掩蔽效应的实验研究[J].声学学报,2006,31(4):363-369. 被引量:10
  • 3Walt Jesteadt, Kim S. Schairer, Donna L. Neff. Effect of variability in level on forward masking and on increment detection. J. Acoust. Soc. Am., 2005; 118(1): 325-337.
  • 4Bias Espinoza-Varas, Hyun-sook Jang, Praveen Jajoria. Backward-masked frequency discrimination by young and older adults: effects of masker level variability. Acta Acustica united with Acustica, 2006; 92(3): 457-467.
  • 5Oxenham A J, Plack C J. Effects of masker frequency and duration in forward masking: further evidence for the influence of peripheral nonlinearity. Hear. Res., 2000; 150: 258-266.
  • 6Norbert Kopco, Shinn-Cunningham B G. Spatial unmasking of nearby pure-tone targets in a simulated anechoic environment. J. Acoust. Soc. Am., 2003; 114(5): 2856- 2870.
  • 7Zwicker E, Flottorp G, Stevens S S. Critical bandwith in loudness summation. J. Acoust. Soc. Am., 1957; 29: 548-557.
  • 8Levitt H. Transformed up-down methods in psychophysics. J. Acoust. Soc. Am., 1971, 49:467-477.
  • 9Brungart D S, Simpson B D. The effects of spatial separation in distance on the informational and energetic masking of a nearby speech signal, J. Acoust. Soc. Am., 2002; 112(2): 664-676.
  • 10Plack C J, Moore B C J. Temporal window shape as a function of frequency and level. J. Acoust. Soc. Am,, 1990; 87(5): 2178-2187.

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电声技术
2005年 第7期

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