Wearable Echolocation Aids Using Parametric Sound

Description

The objective of this project is to study visually impaired individuals’ ability to develop echolocation skills using simple, wearable, echolocation devices that will not be cost prohibitive to most Americans and that would allow for greater availability to the visually impaired community. These echolocation devices emit parametric sound, a directional beam of ultrasound waves that interact with sound waves and surrounding objects, through goggles, watches, lanyards or even walking canes. This allows the visually impaired individual to detect sound waves as they reflect off their surroundings and return to the patient’s ears in unique patterns resembling their external environment. This device would enable individuals to create a raw mental image of their surroundings and any obstacles along their path.

The primary endpoint for this pilot study is to assess the feasibility of such echolocation devices as an adaptive low vision navigation aid on healthy subjects using low vision simulation goggles. Several metrics will be observed and recorded to measure how well echolocation technology addresses challenges associated with visual impairment and downstream factors. These metrics will include gait initiation, termination analysis via the Zeno-Walkway system, electromyography (EMG) of key muscles involved in gait termination, participant preference of echolocation wearable device modularity, and general survey questions.

The secondary study endpoint is to implement the use of echolocation technology among members of the blind or visually impaired population as a clinical aid and study the impact that this technology has on their quality of life and added downstream health implications longitudinally.

A final objective of this study is to seek feedback, not only on the use of any echolocation device to navigate but, to obtain feedback on subjects’ experience with the specific study device, the Wearable Echolocation Device.