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Auditory integration training (AIT) aims to address the sensory problems such as hearing distortions and hyperacusis. Hyperacusis is better understood as oversensitive hearing. Both of which are said to cause discomfort and confusion in people with learning disabilities, including autism spectrum disorders. These hypersensitivities are believed ...
Some of the Gestaltist's examples showed that similar visual forms would group together and segregate from dissimilar ones. Perhaps an analogous sort of grouping might be happening in my auditory sequence. Although I had never been trained in auditory perception research, this one subjective experience set me off on a 36-year period of study." [5]
Binaural fusion or binaural integration is a cognitive process that involves the combination of different auditory information presented binaurally, or to each ear. In humans, this process is essential in understanding speech in noisy and reverberent environments.
Sensory Integration Therapy is based on A. Jean Ayres's Sensory Integration Theory, which proposes that sensory-processing is linked to emotional regulation, learning, behavior, and participation in daily life. [2] Sensory integration is the process of organizing sensations from the body and environmental stimuli.
Furthermore, if the separation can be explained, for example viewing an object through a mirror, integration is re-established and can even be optimal. [ 111 ] [ 112 ] Ernst (2008) suggests that adults can obtain this knowledge from previous experiences to quickly determine which sensory sources depict the same target, but young children could ...
Electronic fluency devices (also known as assistive devices, electronic aids, altered auditory feedback devices and altered feedback devices) are electronic devices intended to improve the fluency of persons who stutter. Most electronic fluency devices change the sound of the user's voice in his or her ear.
The accuracy of tempo within an auditory image usually suffers when recalled; however, the consistency of a person's perception of tempo is preserved. When surveying subject's auditory imagery, their sense of tempo usually stays within 8% of the original tempo heard in a song that the subject heard at some point in the past. [1]
Auditory display enables eyes-free usage for blind users (via a screen reader) as well as sighted users who are using their eyes for other tasks.A rapid detection of acoustic signals and the omnidirectional feature of the sense of hearing can contribute to the effectiveness of an auditory display even when vision is available.