Response scatter in measuring changing-loudness aftereffects: evidence for simplified processing of auditory motion-in-depth and potential collision.

Researchers have postulated 2 mechanisms for processing auditory motion: a direct mechanism processing motion itself and an indirect mechanism sensitive to location over discrete points in time. Measuring aftereffects of azimuthal motion by nulling entails scattered responding, which is attributed to a conflict between direct and indirect mechanisms. In this experiment, the author obtained nulls following adaptation to changing sound level, a property of approaching or receding sound sources, and for nonadaptation. Test stimuli ranged in duration from 1.0 to 2.5 s. Longer test stimuli evinced reductions in both changing-loudness aftereffects and the associated response scatters. However, the latter matched the nonadaptation response scatters. The author suggests that judging longer test stimuli is easier, so an indirect mechanism need not be invoked. Simplified processing of changing sound level may underlie the rapid responses required for potential collision.

Simulated impairment of contrast sensitivity: performance and gaze behavior during locomotion through a built environment.

PURPOSE: An experimental study investigated the effects of simulated impairment of contrast sensitivity (CS) on performance and eye gaze patterns during locomotion through a library. METHOD: Normally sighted participants with simulated CS impairment (diffusive blur) walked two routes, one entailing limited change in direction (simple) and the other entailing several changes in direction (complex), while eye movements relative to the scene were recorded. Performance variables included walking speed in completing the route, pauses during travel, and collisions with objects on the route. For eye movements, dwell time and saccades were determined for each of three object classes: (1) objects on the route below eye level; (2) objects on the route extending above eye level; and (3) elsewhere-objects not on the route. RESULTS: Walking speed was significantly affected by CS level and by route; pauses and collisions were rare. Dwell times and saccades suggested limited attention directed to low-level objects, except for CS impairment on the complex route. In the complex route, saccades and dwell times in the object class "elsewhere" were also reduced. CONCLUSIONS: The results for the simple route suggest ballistic strategies: the participant appraises the scene and follows a more or less predetermined path. For the complex route, CS impairment appears to adversely affect information processing and locomotion. The results have implications for the design of built environments, especially with regard to the safety of visually impaired occupants during emergency scenarios.

Perceptual asymmetries associated with changing-loudness aftereffects.

Listening to decreasing sound level leads to an increasing-loudness aftereffect, whereas listening to increasing sound level leads to a decreasing-loudness aftereffect. Measuring the aftereffects by nulling them in short test stimuli reveals that increasing-loudness aftereffects are greater than decreasing-loudness aftereffects. However, this perceptual asymmetry may be due to another illusion--the growing-louder effect: In the absence of any adaptation, short steady stimuli are heard as growing louder. In an experiment in which the duration of test stimuli varied from 1.0 to 2.5 sec, the growing-louder effect did not occur in the longer test stimuli, but the asymmetry in changing-loudness aftereffects remained. The aftereffect asymmetry is therefore independent of the growing-louder effect. The aftereffect asymmetry is consistent with other psychophysical and physiological evidence that is believed to concern potential collision: An approaching sound-source elicits increasing sound level. In addition, the aftereffect asymmetry parallels a well-known asymmetry regarding aftereffects of visual motion, which is also attributed to potential collision.