Gullstrand Eye Model

Allvar Gullstrand was a Swedish ophthalmologist.[1] He received the Nobel Prize in Physiology or Medicine in 1911 for his work on the dioptrics of the eye. [2] So far, he is the only ophthalmologist who has been given a Nobel Prize for work in ophthalmology. [3]

We extracted values for the Gullstrand eye model from Navarro's 1985 paper, and built a CISET lens with these values. We did ray tracing in CISET, and varied index of refraction as a function of wavelength manually in the code since the lens data file can only accommodate the aberration-free model. The data from ray tracing was ported to ISET, from which we could plot the resulting image and do analysis on the sensor image. Using this method, we measured various characteristics of the eye such as the spherical aberration, chromatic aberration, and linespread function.

Comparison of LSA of our Gullstrand eye model in CISET versus data from Navarro's 1985 paper. The dotted line on the right figure represents Navarro's Gullstrand-Le Grand eye model, and our values are fairly similar to his.

Comparison of linespread function and chromatic aberration of our Gullstrand eye model in CISET versus the actual human linespread function and data from Navarro's 1985 paper. The linespread functions are pretty comparable, and the chromatic aberration of our lens follows similar trends as modeled by Navarro.

Comparison of polychromatic PSF of our Gullstrand eye model as a function of aperture in CISET versus data from Navarro's 1985 paper. We also see that smaller aperture leads to a sharper PSF. However, we're not sure why the larger aperture does not allow more overall light through the lens in either model.

Comparison of the effects of defocus on the polychromatic MTF of our Gullstrand eye model in CISET versus data from Navarro's 1999 paper. The line in red is our sensor defocused, which has a similar characteristic to Navarro's defocused model.

We tested a Gullstrand eye model with on-axis ray tracing measurements on a planar sensor. Based on the results we measured, we concluded that the Gullstrand eye model in CISET correlated fairly well with the Navarro Gullstrand-Le Grand model.

Some ideas for future work include:

• More modeling of field angle - our models were typically on axis measurements. We did a few off-axis measurements, but did not extract useful data out of them.
• Accommodation dependent measurements - our model does not take into account accommodation, which a real eye does. Navarro's paper includes equations for accommodation, and the eye model can thus be extended to account for these equations.
• Use of a spherical sensor surface instead of a planar sensor surface in ray tracing to model the retina and to get a wide-angle model
• Modeling lenses as conical instead of spherical, as is done in Navarro's 1999 paper.

[1] "Gullstrand, Allvar." Complete Dictionary of Scientific Biography. 2008. Encyclopedia.com. (December 11, 2015). http://www.encyclopedia.com/doc/1G2-2830901777.html

[2] "The Nobel Prize in Physiology or Medicine 1911". Nobelprize.org. Nobel Media AB 2014. Web. 12 Dec 2015. http://www.nobelprize.org/nobel_prizes/medicine/laureates/1911/

[3] Ehinger, Berndt, and Andrzej Grzybowski. “Allvar Gullstrand (1862–1930) – the Gentleman with the Lamp.” Acta Ophthalmologica 89, no. 8 (December 1, 2011): 701–8. doi:10.1111/j.1755-3768.2011.02235.x.

File:Gullstrand.zip gullstrand.dat lens file for integrating into CISET