期刊
TRANSLATIONAL VISION SCIENCE & TECHNOLOGY
卷 7, 期 1, 页码 -出版社
ASSOC RESEARCH VISION OPHTHALMOLOGY INC
DOI: 10.1167/tvst.7.1.2
关键词
visual prosthesis; eye tracking; retinal implant; spatial localization; gaze compensation
资金
- Clive and Vera Ramaciotti Foundation
- National Health and Medical Research Council [1063093, 1082358]
- Bionics Institute from the Victorian Government through its Operational Infrastructure Program
- Bertalli Family Foundation
- Melbourne Neuroscience Institute Australian Government Research Training Program
- National Health and Medical Research Council of Australia [1063093] Funding Source: NHMRC
Purpose: Shifting the region-of-interest within the input image to compensate for gaze shifts (gaze compensation) may improve hand-eye coordination in visual prostheses that incorporate an external camera. The present study investigated the effects of eye movement on hand-eye coordination under simulated prosthetic vision (SPV), and measured the coordination benefits of gaze compensation. Methods: Seven healthy-sighted subjects performed a target localization-pointing task under SPV. Three conditions were tested, modeling: retinally stabilized phosphenes (uncompensated); gaze compensation; and no phosphene movement (center-fixed). The error in pointing was quantified for each condition. Results: Gaze compensation yielded a significantly smaller pointing error than the uncompensated condition for six of seven subjects, and a similar or smaller pointing error than the center-fixed condition for all subjects (two-way ANOVA, P < 0.05). Pointing error eccentricity and gaze eccentricity were moderately correlated in the uncompensated condition (azimuth: R-2 = 0.47; elevation: R-2 = 0.51) but not in the gaze-compensated condition (azimuth: R-2 = 0.01; elevation: R-2 = 0.00). Increased variability in gaze at the time of pointing was correlated with greater reduction in pointing error in the center-fixed condition compared with the uncompensated condition (R-2 = 0.64). Conclusions: Eccentric eye position impedes hand-eye coordination in SPV. While limiting eye eccentricity in uncompensated viewing can reduce errors, gaze compensation is effective in improving coordination for subjects unable to maintain fixation. Translational Relevance: The results highlight the present necessity for suppressing eye movement and support the use of gaze compensation to improve hand-eye coordination and localization performance in prosthetic vision.
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