An infrared image‐enhancement algorithm in simulated prosthetic vision: Enlarging working environment of future retinal prostheses

Background Most existing retinal prostheses contain a built‐in visible‐light camera module that captures images of the surrounding environment. Thus, in case of insufficient or lack of visible light, the camera fails to work, and the retinal prostheses enter a dormant or “OFF” state. A simple and ef...

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Vydáno v:Artificial organs Ročník 46; číslo 11; s. 2147 - 2158
Hlavní autoři: Liang, Junling, Li, Heng, Chen, Jianpin, Zhai, Zhenzhen, Wang, Jing, Di, Liqing, Chai, Xinyu
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States Wiley Subscription Services, Inc 01.11.2022
Témata:
Algorithms
Cameras
dual‐mode camera
Feasibility
Image enhancement
Infrared imagery
infrared image‐processing algorithm
Light
Neural prostheses
Prostheses
Prosthetics
Psychophysics
Retina
retinal prosthesis
simulated prosthetic vision
Vision
Visual tasks
Working conditions
retinal prosthesis
simulated prosthetic vision
dual-mode camera
infrared image-processing algorithm
ISSN:0160-564X, 1525-1594, 1525-1594
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Shrnutí:Background Most existing retinal prostheses contain a built‐in visible‐light camera module that captures images of the surrounding environment. Thus, in case of insufficient or lack of visible light, the camera fails to work, and the retinal prostheses enter a dormant or “OFF” state. A simple and effective solution is replacing the visible‐light camera with a dual‐mode camera. The present research aimed to achieve two main purposes: (1) to explore whether the dual‐mode camera in prosthesis recipients works under no visible‐light conditions and (2) to assess its performance. Methods To accomplish these aims, we enrolled subjects in a psychophysical experiment under simulated prosthetic vision conditions. We found that the subjects could complete some simple visual tasks, but the recognition performance under the infrared mode was significantly inferior to that under the visible‐light mode. These results inspired us to develop and propose a feasible infrared image‐enhancement processing algorithm. Another psychophysical experiment was performed to verify the feasibility of the algorithm. Results The obtained results showed that the average efficiency of the subjects completing visual tasks using our enhancement algorithm (0.014 ± 0.001) was significantly higher (p < 0.001) than that of subjects using direct pixelization (0.007 ± 0.001). Conclusions We concluded that a dual‐mode camera could be a feasible solution to improving the performance of retinal prostheses as the camera adapted better to the specific existing ambient light conditions. Dual‐mode cameras combined with this infrared image‐enhancement algorithm could provide a promising direction for the design of future retinal prostheses. This study found that subjects could complete some simple visual tasks, but the recognition performance under the infrared mode was significantly inferior to that under the visible‐light mode. This research developed and proposed a feasible infrared image‐enhancement processing algorithm. We concluded that a dual‐mode camera could be a feasible solution to improving the performance of retinal prostheses as the camera adapted better to the specific existing ambient light conditions.
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ISSN:0160-564X
1525-1594
1525-1594
DOI:10.1111/aor.14247