📑 Table of Contents
Diagram of light and four Purkinje images[1]
An eye with Purkinje images

Purkinje images are reflections of objects from the structure of the eye. They are also known as Purkinje reflexes and as Purkinje–Sanson images. At least four Purkinje images are usually visible in the normal eye. The first Purkinje image (P1) is the reflection from the outer surface of the cornea. The second Purkinje image (P2) is the reflection from the inner surface of the cornea. The third Purkinje image (P3) is the reflection from the outer (anterior) surface of the lens. The fourth Purkinje image (P4) is the reflection from the inner (posterior) surface of the lens. Unlike the others, P4 is an inverted image.

Purkinje–Sanson images are named after Czech anatomist Jan Evangelista Purkyně (1787–1869) and after French physician Louis Joseph Sanson (1790–1841).

The third and fourth Purkinje images can be visible from within the eye itself. Light reflected away from the surfaces of the lens can in turn reflect back into the eye from the rear surface of the cornea.

The first and fourth Purkinje images are used by some eye trackers, devices to measure the position of an eye. The cornea reflection (P1 image) used in this measurement is generally known as glint.[2]

Brightness

edit

The brightness of the Purkinje images can be determined using Fresnel's equation:[3] where and are the refractive indices before and after the reflecting surface. Purkinje image P1 is the brightest of the four, then P3 and P4 (P3 and P4 have about the same brightness), then P2. The Purkinje images can be used to assess the curvatures and separations of the surfaces in the eye.

See also

edit

References

edit
  1. ^ "Dual Purkinje Eyetrackers". KU Leuven. Retrieved 6 March 2015.
  2. ^ Sigut, J; Sidha, SA (February 2011). "Iris center corneal reflection method for gaze tracking using visible light". IEEE Transactions on Bio-Medical Engineering. 58 (2): 411–9. doi:10.1109/tbme.2010.2087330. PMID 20952326. S2CID 206611506.
  3. ^ Lu, Conny; Chakravarthula, Praneeth; Tao, Yujie; Chen, Steven; Fuchs, Henry. "Improved vergence and accommodation via Purkinje Image tracking with multiple cameras for AR glasses" (PDF). University of North Carolina at Chapel Hill. Retrieved 29 May 2025.
edit

📚 Artikel Terkait di Wikipedia

Pupillary distance

more likely done using a corneal reflex based instrument placed on the nose bridge and work by sighting the corneal reflection produced by an internally-mounted

Eye tracking

Infrared / near-infrared: dark pupil and corneal reflection. Visible light: center of iris (red), corneal reflection (green), and output vector (blue). Eye-tracking

Cover test

start of the near cover test assessment to observe the patient's corneal reflections, and to see whether their fixation is steady, central and maintained

Corneal transplantation

Corneal transplantation, also known as corneal grafting, is a surgical procedure where a damaged or diseased cornea is replaced by donated corneal tissue

Keratoconus

include frequent eye rubbing and allergies. Diagnosis is typically made with corneal topography, which maps the shape of the cornea and reveals characteristic

Video-oculography

components is well established technology which uses pupil tracking and/or corneal reflection tracking and has been widely applied, for example for tracking eye

Rokeby Venus

reflection of the viewer". Nonetheless, despite that her face is indeed turned as if looking at the viewer's reflection, weak but noticeable corneal reflections

Oculometer

tracks eye movement. The oculometer computes eye movement by tracking corneal reflection relative to the center of the pupil. An oculometer, which can provide