6533b7dcfe1ef96bd12728bf
RESEARCH PRODUCT
<title>Estimation of stereovision in conditions of blurring simulation</title>
Vsevolod LyakhovetskiiMaris OzolinshGunta KruminaI. Lacissubject
Visual acuitygenetic structuresReduced visionbusiness.industryComputer sciencemedia_common.quotation_subjectEye diseaseTest objectmedicine.diseaseeye diseasesStereopsisOpticsmedicineContrast (vision)Computer visionsense organsArtificial intelligencemedicine.symptombusinessmedia_commondescription
The aim of this study was to evaluate the simulation of eye pathologies, such as amblyopia and cataracts, to estimate the stereovision in artificial conditions, and to compare the results on the stereothreshold obtained in artificial and real- pathologic conditions. Characteristic of the above-mentioned real-life forms of a reduced vision is a blurred image in one of the eyes. The blurring was simulated by (i) defocusing, (ii) blurred stimuli on the screen, and (iii) occluding of an eye with PLZT or PDLC plates. When comparing the methods, two parameters were used: the subject's visual acuity and the modulation depth of the image. The eye occluder method appeared to systematically provide higher stereothreshold values than the rest of the methods. The PLZT and PDLC plates scattered more in the blue and decreased the contrast of the stimuli when the blurring degree was increased. In the eye occluder method, the stereothreshold increased faster than in the defocusation and monitor stimuli methods when the visual acuity difference was higher than 0.4. It has been shown that the PLZT and PDLC plates are good optical phantoms for the simulation of a cataract, while the defocusation and monitor stimuli methods are more suitable for amblyopia.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-08-03 | SPIE Proceedings |