Simulation of a Vision Correction Display System (2404.08238v1)
Abstract: Eyes serve as our primary sensory organs, responsible for processing up to 80\% of our sensory input. However, common visual aberrations like myopia and hyperopia affect a significant portion of the global population. This paper focuses on simulating a Vision Correction Display (VCD) to enhance the visual experience of individuals with various visual impairments. Utilising Blender, we digitally model the functionality of a VCD in correcting refractive errors such as myopia and hyperopia. With these simulations we can see potential improvements in visual acuity and comfort. These simulations provide valuable insights for the design and development of future VCD technologies, ultimately advancing accessibility and usability for individuals with visual challenges.
- https://www.blender.org/.
- https://www.edmundoptics.in/.
- https://www.fresneltech.com/.
- Light‐field imaging and display systems. Information Display, 32:6–13, 08 2016.
- State-of-the-art report on display systems. 2021. Ref. Ares(2021)620785 - 26/01/2021.
- Correcting for optical aberrations using multilayer displays, 2012. ACM Trans. Graph. (SIGGRAPH Asia) 31, 6, 185:1– 185:12.
- Lippmann G. Epreuves reversibles donnant la sensation du relief,, 1908. Journal of Physics 7, 4, 821–825.
- Eyeglasses-free Display: Towards Correcting Visual Aberrations with Computational Light Field Displays, 2014.
- Principles of light field imaging: Briefly revisiting 25 years of research, 2016. Inf. Disp. 2016,32, 6–13.
- Light field rendering, 1996. Proc. ACM SIGGRAPH, 1996, pp. 31–42.
- Tailored displays to compensate for visual aberrations., 2012. ACM Trans. Graph. (SIGGRAPH) 31.