Lee Sungbok, Byrd Dani, Krivokapić Jelena
USC Department of Linguistics and USC Viterbi School of Engineering, 3601 Watt Way, GFS 301, Los Angeles, California 90089-1693, USA.
J Acoust Soc Am. 2006 Mar;119(3):1666-71. doi: 10.1121/1.2161436.
An application of functional data analysis (FDA) (Ramsay and Silverman, 2005, Functional Data Analysis, 2nd ed. (Springer-Verlag, New York)) for linguistic experimentation is explored. The functional time-registration method provided by FDA is shown to offer novel advantages in the investigation of articulatory timing. Traditionally, articulatory studies examining the effects of linguistic variables such as prosody on articulatory timing have relied on comparing the durations of speech intervals of interest defined by kinematic landmarks. Such measurements, however, do not preserve information on the detailed, continuous pattern of articulatory timing that unfolds during these intervals. We present an approach that allows the analysis of entire, continuous kinematic trajectories obtained in a movement tracking experiment examining the influence of a phrasal boundary on articulatory patterning. FDA time deformation functions, after alignment of test and reference (control) signals, reveal delaying of articulator movement (i.e., slowing of the internal clock rate) in the presence of a phrase boundary as the speech stream recedes from the boundary. This is a theoretically predicted pattern (Byrd and Saltzman, 2003, The elastic phrase: Modeling the dynamics of boundary-adjacent lengthening, Journal of Phonetics 31, 149-180.), which would be more difficult to validate with a traditional interval-based approach. It is concluded that the FDA time alignment method provides a useful tool for characterizing timing patterns in linguistic experimentation based on continuous kinematic trajectories.
本文探讨了功能数据分析(FDA)(Ramsay和Silverman,2005年,《功能数据分析》,第2版(施普林格出版社,纽约))在语言实验中的应用。研究表明,FDA提供的功能时间登记方法在发音计时研究中具有新的优势。传统上,研究韵律等语言变量对发音计时影响的发音研究依赖于比较由运动学标志定义的感兴趣语音间隔的持续时间。然而,这种测量方法无法保留这些间隔期间展开的详细、连续发音计时模式的信息。我们提出了一种方法,该方法允许分析在运动跟踪实验中获得的整个连续运动学轨迹,该实验研究了短语边界对发音模式的影响。在测试信号和参考(对照)信号对齐后,FDA时间变形函数揭示了在短语边界存在的情况下,随着语音流从边界后退,发音器运动的延迟(即内部时钟速率减慢)。这是一种理论上预测的模式(Byrd和Saltzman,2003年,《弹性短语:模拟边界相邻延长的动态》,《语音学杂志》31,149 - 180页),用传统的基于间隔的方法更难验证。得出的结论是,FDA时间对齐方法为基于连续运动学轨迹的语言实验中的计时模式表征提供了一个有用的工具。