Outside ofthe laboratory, listening conditions are often less than ideal, and when attending to sounds from a particular source, portions are often obliterated by extraneous noises. However, listeners possess rather elegant reconstructive mechanisms. Restoration can be complete, so that missing segments are indistinguishable from those actually present and the listener is unaware that the signal is fragmented. This phenomenon, called temporal induction (TD, has been studied extensively with nonverbal signals and to a lesser extent with speech. Earlier studies have demonstrated that TI can produce illusory continuity spanning gaps of a few hundred milliseconds when portions ofa signal are replaced by a louder sound capable of masking the signal were it actually present. The present study employed various types of speech signals with periodic gaps and measured the effects upon intelligibility produced by filling these gaps with noises. Enhancement of intelligibility through multiple phonemic restoration occurred when the acoustic requirements for TI were met and when sufficient contextual information was available in the remaining speech fragments. It appears that phonemic restoration is a specialized form of TI that uses linguistic skills for the reconstruction of obliterated speech.In everyday life, portions of speech and other acoustic signals are often obliterated by extraneous transient noises such as coughs, slamming doors, and traffic sounds. However, we possess sophisticated mechanisms that can restore the segments of these signals that have been obliterated by noise. The rule governing restoration is simple, and its consequences manifold. Restoration can occur when an extraneous sound is capable of masking a signal and when there is sufficient contextual information to establish the identity of an obliterated fragment. This restoration, which has been called temporal induction (TI), is complete, so that when appropriate conditions are met, listeners cannot distinguish restored sounds from those actually present.A review of the literature has indicated that there are three basic types ofTI (Warren, 1984). The simplest form of restoration has been called homophonic continuity. If three levels of the same sound (e.g., 60-, 70-, and 80-dB levels of a noise each lasting 300 msec) are presented in succession and repeated without pauses, the 6O-dB level appears to be on continuously with the other levels heard as intermittent pulsed additions. Apparent continuity of the faintest sound occurs despite the fact that this level is actually present for less than half of the time. Homophonic continuity is a subtractive process. Thus, when Portions of this work were supported by grants from the National Institutes of Health (DC00208) and the Air Force Office of Scientific Research (88-0320). These experiments were outlined in a paper presented at the 119th meeting of the Acoustical Society of America, with a briefabstract appearing in the Ioumal of the Acoustical Society (VoL 87, Supp1. 1,1990, S71). The authors are w...
