Читать книгу The Handbook of Speech Perception - Группа авторов - Страница 82

This chapter has examined the role of features in speech perception and auditory word recognition. As described, while features have generally been considered representational units in speech perception, there has been a lack of consensus about the nature of the feature representations themselves. In our view, one of the major conflicts in current theories of speech has its roots in whether researchers have focused on identifying the attributes that define the phonetic categories of speech or, alternatively, have focused on characterizing the ways in which contextual factors can influence the boundaries between phonetic categories (see Samuel, 1982). In the former, the emphasis has been on describing the acoustic‐articulatory structure of phonetic categories in the latter, the emphasis has been on characterizing the ways in which acoustic changes ultimately affect the perception of boundaries between phonetic categories. These different emphases have also resulted in different conclusions. Studies focusing on the boundaries between phonetic segments have documented the ease with which boundary shifts have been obtained consequent to any number of acoustic manipulations, and as such the conclusion has been that there is no stable pattern of acoustic information that corresponds to these categories. Analyses of the acoustic characteristics of speech have produced mixed results. Focusing on individual cues and considering them as distinct events failed to show stable acoustic patterns associated with these cues. In contrast, focusing on the integration of spectral‐temporal properties revealed more generalized patterns or properties which contribute to the identification of a phonetic segment or phonetic feature.

So what is the story? Does acoustic invariance obviate variability? Does variability trump invariance? In both cases, we believe not. Both stable acoustic patterns and variability inherent in the speech stream play a critical role in speech perception and word recognition processes. Invariant acoustic patterns corresponding to features allow for stability in perception. As such, features serve as essential building blocks for the speaker‐hearer in processing the sounds of language. They provide the framework for the speaker‐hearer in processing speech and ultimately words, by allowing for acoustically variable manifestations of sound in different phonetic contexts to be realized as one and the same phonetic dimension. In short, they serve as a means of bootstrapping the perceptual system for the critical job of mapping the auditory input not only onto phonetic categories but also onto words.

But variability plays a crucial role as well. It allows for graded activation within the language‐processing stream and hence provides the perceptual system with a richness and flexibility in accessing phonetic features, words, and even meanings that would be impossible were variability to be treated as “noise” and not be represented by the listener. Sensitivity to variability allows listeners to recognize differences that are crucial in language communication. For example, retaining fine structure information allows us to recognize the speaker of a message. And variability allows for the establishment and internalization of probability distributions. Presumably, acoustic inputs that are infrequently produced would require more processing and neural resources compared to acoustic inputs that are in the center of a category or that match more closely a word representation. As such, both processing and neural resources would be freed up when more frequent features and lexical items occur, and additional resources would be needed for less frequent occurrences. In this way, the system is not only flexible but also plastic, affording a means for the basic stable structure of speech to be shaped and influenced by experience.