[go: up one dir, main page]
More Web Proxy on the site http://driver.im/ skip to main content
10.1145/1117309.1117334acmconferencesArticle/Chapter ViewAbstractPublication PagesetraConference Proceedingsconference-collections
Article

Pupil brightness variation as a function of gaze direction

Published: 27 March 2006 Publication History

Abstract

Pupil detection represents one of the most critical aspects for eye tracking systems based on video oculography. A robust segmentation of the aforementioned feature determines to a large extent the degree of performance of the system. However, a question remains unsolved... why does the pupil gray level change in the image? Apart from the possible room lighting variation, can the eyeball physiology influence its final level in the image by itself? The answer is yes. In this paper a further step in the work by Nguyen et al. [Nguyen et al. 2002] is proposed in which this eyeball characteristic was noticed but not explained. This paper gives some enlightenment to this effect finding a physiological reason for it. From the results it is clear that the pupil brightness can be a valid image feature and can contribute together with alternative ones to improve the tracking [Hammoud 2005]. A deep knowledge about its behavior is undoubtedly highly interesting. The matter should be to study how the retina reacts to the light in order to know how it can influence its final level in the image. The retina is not a uniform surface; in the fovea there is a higher density of cones and the ganglion cells are highly packed. When the eye is entered with a beam of light, the light can be reflected and absorbed at the various layers of the retina. Normally near infrared lighting is used because it is not visible for humans. Actually in this range of wavelength the reflected light is dominated by the light scattered back from the choroid: the last layer before the sclera that supports the retina, and it is precisely for this wavelength for which the retina presents the highest reflectance. A bright pupil tracking is conducted following the same method as in the works by Nguyen et al. [Nguyen et al. 2002] and Miller [Miller et al. 1995] but more exhaustive experiments are conducted. A ray of light directed to the fovea needs to cross a thicker layer in order to reach the choroid which produces a decrease of effective light intensity, a stronger reflection and consequently a brighter pupil can be expected if the most eccentric part of the retina is reached. Vertical rotations of the eyeball about its center are sketched in figure 1. From the figure it is clear that the pupil will appear brighter if the subject is looking at the upper part of the screen than for cases in which points in the lower part are fixated. Regarding to left and right eye rotations the fovea is horizontally and temporally displaced from the eyeball back pole. That means that the visual axis and the fovea present an angular offset with respect to the symmetry axis of the eye but with opposite sign depending on the eye. Following the same reasoning as the one used for vertical rotations it is clear that a brighter pupil could be expected for points on the right part of the screen for the left eye. A symmetrical behavior appears for the right eye being the points on the left part of the screen the ones with higher pupil levels.

References

[1]
Hammoud, R. I. 2005. A robust eye position traker based on invariant local features, eye motion and infrared-eye responses. In SPIE Defense and Security Symposium, Automatic Target Recognition Conference, Proceedings of SPIE Vol. Nb. 5807, 35--43.
[2]
Miller, J., Hall, H., Greivenkamp, J., and Guyton, D. 1995. Quantification of the bruckner test for strabismus. Investigate Ophtalmology & Visual Science 35(5), 897--905.
[3]
Nguyen, K., Wagner, C., Koons, D., and Flickner, M. 2002. Differences in the infrared bright pupil response of human eyes. In ETRA '02: Proceedings of the symposium on Eye tracking research & applications, ACM Press, New York, NY, USA, 133--138.

Cited By

View all
  • (2017)Corneal ImagingThe Wiley Handbook of Human Computer Interaction10.1002/9781118976005.ch21(445-514)Online publication date: 28-Dec-2017
  • (2015)A Fast and Accurate Eye Tracker Using Stroboscopic Differential LightingProceedings of the 2015 IEEE International Conference on Computer Vision Workshop (ICCVW)10.1109/ICCVW.2015.72(502-510)Online publication date: 7-Dec-2015
  • (2014)Where is the driver looking: Analysis of head, eye and iris for robust gaze zone estimation17th International IEEE Conference on Intelligent Transportation Systems (ITSC)10.1109/ITSC.2014.6957817(988-994)Online publication date: Oct-2014
  • Show More Cited By

Recommendations

Comments

Please enable JavaScript to view thecomments powered by Disqus.

Information & Contributors

Information

Published In

cover image ACM Conferences
ETRA '06: Proceedings of the 2006 symposium on Eye tracking research & applications
March 2006
175 pages
ISBN:1595933050
DOI:10.1145/1117309
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

Sponsors

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 27 March 2006

Permissions

Request permissions for this article.

Check for updates

Qualifiers

  • Article

Conference

ETRA06
ETRA06: Eye Tracking Research and Applications
March 27 - 29, 2006
California, San Diego

Acceptance Rates

Overall Acceptance Rate 69 of 137 submissions, 50%

Upcoming Conference

Contributors

Other Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

  • Downloads (Last 12 months)2
  • Downloads (Last 6 weeks)0
Reflects downloads up to 21 Dec 2024

Other Metrics

Citations

Cited By

View all
  • (2017)Corneal ImagingThe Wiley Handbook of Human Computer Interaction10.1002/9781118976005.ch21(445-514)Online publication date: 28-Dec-2017
  • (2015)A Fast and Accurate Eye Tracker Using Stroboscopic Differential LightingProceedings of the 2015 IEEE International Conference on Computer Vision Workshop (ICCVW)10.1109/ICCVW.2015.72(502-510)Online publication date: 7-Dec-2015
  • (2014)Where is the driver looking: Analysis of head, eye and iris for robust gaze zone estimation17th International IEEE Conference on Intelligent Transportation Systems (ITSC)10.1109/ITSC.2014.6957817(988-994)Online publication date: Oct-2014
  • (2010)In the Eye of the BeholderIEEE Transactions on Pattern Analysis and Machine Intelligence10.1109/TPAMI.2009.3032:3(478-500)Online publication date: 1-Mar-2010

View Options

Login options

View options

PDF

View or Download as a PDF file.

PDF

eReader

View online with eReader.

eReader

Media

Figures

Other

Tables

Share

Share

Share this Publication link

Share on social media